קורות חיים - CV

Theoretical Chemistry

 

 

ביוגרפיה

בתר דוקטורט: University of Wisconsin, Madison, USA

דוקטורט: Technion, 1977

פרסומים נבחרים

2022

  • N. Moiseyev, O. Vendrell, L. S. Cederbaum, and M. Sindelka, (2022). Polariton entering a continuum: Giant diffuse polaritonic resonance, Letter-Phys. Rev. Accepted for publication
  • Petra Ruth Kaprálová-ˇZˇdánská,∗ , Milan ˇSindelka & Moiseyev, N., (2022). Coalescence of two branch points in complex time marks the end of rapid adiabatic passage and the start of Rabi oscillations. J. Phys. A: Math. Theor. 55, 284001 (2022); doi: View Article
  • Moiseyev, N., &  Šindelka  M. (2022) . Tuning quantum–classical correspondence for atomic and molecular systems in a cavity . J. Phys. A: Math. Theor.55 (22) 224014 View Article 
  • Gal Bouskila, Arie Landau, Idan Haritan, Moiseyev, N., Debarati Bhattachary (2022). Complex energies and transition dipoles for shape-type resonances of uracil anion from stabilization curves via Padé. J. Chem. Phys. 156, 194101 (2022); View Article
  • Guy Elbaz, Adi Pick, Moiseyev, N. and Gal Shmuel. Encircling exceptional points of Bloch waves: mode conversion and anomalous scattering. J. Phys. D: Appl. Phys. 55 235301 (2022); View Article
  • Tsinovoy A., Katz O., Landau, A. &  Moiseyev, N. (2022). Enhanced coupling of electron and nuclear spins by quantum tunneling resonances. Phys. Rev. Lett. 128, 013401
    View Article
  • Arie Landau, Idan Haritan, Moiseyev, N. (2022). The RVP Method—From Real Ab-Initio Calculations to Complex Energies and Transition Dipoles, Front. REVIEW article: Phys.Sec. Physical Chemistry and Chemical Physics. View Review

     

 

2021

  • Ben-Asher, A., Landau, A., & Moiseyev N., (2021). Uniform vs partial scaling within resonances via pade based on the similarities to other non-hermitian methods: Illustration for the beryllium 1s(2)2p3s state. J. Chem. Theory Comput.17(6), 3435–3444. doi: View Article

 

  • Dann, R., Elbaz, G., Berkheim, J., Muhafra, A., Nitecki, O., Wilczynski, D., & Moiseyev N., (2021). Variational solutions for resonances by a finite-difference grid method. Molecules26(17). doi: View Article

 

  • Moiseyev N., , & Sindelka, M. (2021). Transfer of information through waveguides near an exceptional point. Phys. Rev. A103(3). doi: View Article

 

  • Sindelka, M., Ben-Asher, A., & Moiseyev, (2021). Acceleration-gauge hamiltonian for a laser-driven particle with a position-dependent mass. Phys. Rev. A103(5). doi: View Article

 

2020

  • Ben-Asher, A., Landau, A., Cederbaum, L. S., & Moiseyev, (2020). Quantum effects dominating the interatomic coulombic decay of an extreme system. J. Phys. Chem. Lett.11(16), 6600–6605. doi:View Article

 

  • Ben-Asher, A., Simsa, D., Uhlirov, T., Sindelka, M., & Moiseyev, (2020). Laser control of resonance tunneling via an exceptional point. Phys. Rev. Lett.124 (25). doi: View Article

 

  • Feilhauer, J., Schumer, A., Doppler, J., Mailybaev, A. A., Bohm, J., Kuhl, U., … Rotter, S. (2020). Encircling exceptional points as a non-hermitian extension of rapid adiabatic passage. Phys. Rev. A102(4). doi: View Article

 

  • Landau, A., Ben-Asher, A., Gokhberg, K., Cederbaum, L. S., & Moiseyev, (2020). Ab initio complex potential energy curves of the he-*(1s2p p-1)-li dimer. J. Chem. Phys.152(18). doi: View Article

 

  • Pawlak, M., Zuchowski, P. S., Moiseyev, , & Jankowski, P. (2020). Evidence of nonrigidity effects in the description of low-energy anisotropic molecular collisions of hydrogen molecules with excited metastable helium atoms. J. Chem. Theory Comput.16(4), 2450–2459. doi: View Article

 

  • Gal, S., & MoiseyevN., (2020). Linking scalar elastodynamics and non-hermitian quantum mechanics. Phys. Rev. Appl.13(2). doi: View Article

 

  • Bhattacharya, D., Pawlak, M., Ben-Asher, A., Landau, A., Haritan, I., Narevicius, E., & Moiseyev, (2019). Quantum effects in cold molecular collisions from spatial polarization of electronic wave function. J. Phys. Chem. Lett.10(4), 855–863. doi: View Article

 

2019

  • Bhattacharya, D., Landau, A., & Moiseyev, (2020). Ab initio complex transition dipoles between autoionizing resonance states from real stabilization graphs. J. Phys. Chem. Lett.11(14), 5601–5609. doi: View Article
  • Pick, A., Silberstein, S., Moiseyev, N., & Bar-gill, N. (2019). Robust mode conversion in nv centers using exceptional points. Phys. Rev. Res.1(1). doi: View Article
  • Pick, A., Kaprálová-Žďánská ,PR., & Moiseyev, N. (2019).  Ab-initio theory of photoionization via resonances. J. Chem. Phys. 150, 204111; View Article

 

 

2018

  • Ben-Asher, A., Narevicius, E., & Moiseyev, (2018). The effect of large autoionization decay rates (resonance widths) on cold molecular cross-sections and the reflection phenomenon. Chem. Phys.515, 88–93. doi: View Article

 

  • Berman, M., & Moiseyev, (2018). Exceptional points in the riesz-feller hamiltonian with an impenetrable rectangular potential. Phys. Rev. A98(4). doi: View Article

 

  • Goldzak, T., Mailybaev, A. A., & Moiseyev, (2018). Light stops at exceptional points. Phys. Rev. Lett.120(1). doi: View Article

 

  • Neufeld, O., Sharabi, Y., Ben-Asher, A., & Moiseyev N., (2018). Calculating bound states resonances and scattering amplitudes for arbitrary 1d potentials with piecewise parabolas. J. Phys. A-Math. Theor.51(47). doi: View Article

 

  • Pawlak, M., Ben-Asher, A., & Moiseyev N., (2018). Simple closed-form expression for penning reaction rate coefficients for cold molecular collisions by non-hermitian time-independent adiabatic scattering theory. J. Chem. Theory Comput.14(1), 236–241. doi: View Article

 

  • Pick, A., & Moiseyev, (2018). Polarization dependence of the propagation constant of leaky guided modes. Phys. Rev. A97(4). doi: View Article

 

  • Sindelka, M., & Moiseyev, (2018). Quantum uncertainties and heisenberg-like uncertainty relations for a weak measurement scheme involving two arbitrary non commuting observables. Phys. Rev. A97(1). doi: View Article

 

  • Pick, A., Kapralova-zd’anska, P. R., & Moiseyev, (2019). Ab-initio theory of photoionization via resonances. J. Chem. Phys.150(20). doi: View Article

 

2017

  • Ben-Asher, A., & Moiseyev, (2017). The boomerang effect in electron-hydrogen molecule scattering as determined by time-dependent calculations. J. Chem. Phys.146(20). doi: View Article

 

  • Bhattacharya, D., Ben-Asher, A., Haritan, I., Pawlak, M., Landau, A., & Moiseyev, (2017). Polyatomic ab initio complex potential energy surfaces: Illustration of ultracold collisions. J. Chem. Theory Comput.13(4), 1682–1690. doi: View Article

 

  • Dreuw, A., Sommerfeld, T., Moiseyev, , & Koeppel, H. (2017). Electrons and nuclei in motion: Correlation and dynamics in molecules. Chem. Phys.482(SI), 1–2. doi:View Article

 

  • Haritan, I., & Moiseyev, (2017). On the calculation of resonances by analytic continuation of eigenvalues from the stabilization graph. J. Chem. Phys.147(1). doi: View Article

 

  • Klein, A., Shagam, Y., Skomorowski, W., Zuchowski, P. S., Pawlak, M., Janssen, L. M. C, Moiseyev, N., van de Meerakker, S.Y.T, van der Avoird, A., Koch, C.P., and Narevicius, E. (2017). Directly probing anisotropy in atom-molecule collisions through quantum scattering resonances. Nature Phys.13(1), 35–38. doi: View Article

 

  • Martiskainen, H., & Moiseyev, (2017). Adiabatic perturbation theory for atoms and molecules in the low-frequency regime. J. Chem. Phys.147(22). doi: View Article

 

  • Moiseyev, (2017). Forces on nuclei moving on autoionizing molecular potential energy surfaces. J. Chem. Phys.146(2). doi: View Article

 

  • Pawlak, M., Shagam, Y., Klein, A., Narevicius, E., & Moiseyev, (2017). Adiabatic variational theory for cold atom-molecule collisions: Application to a metastable helium atom colliding with ortho- and para-hydrogen molecules. J. Phys. Chem. A121(10), 2194–2198. doi: View Article

 

  • Sindelka, M., & Moiseyev, (2017). Derivation of the one electron orbital which is associated with the best separable function of a given many electron reference state. Chem. Phys.482(SI), 384–386. doi: View Article

 

  • Sindelka, M., Santos, L. F., & Moiseyev, (2017). Excited-state quantum phase transitions studied from a non-hermitian perspective. Phys. Rev. A95(1). doi: View Article

 

  • Tripolt, R.-A., Haritan, I., Wambach, J., & Moiseyev, N. (2017). Threshold energies and poles for hadron physical problems by a model-independent universal algorithm.  Phys. Lett. B774, 411–416. doi: View Article

 

 

2016

  • Ben-Asher, A., & Moiseyev, (2016). On the equivalence of different methods for calculating resonances: From complex gaussian basis set to reflection-free complex absorbing potentials via the smooth exterior scaling transformation. J. Chem. Theory Comput.12(6), 2542–2552. doi: View Article

 

  • Doppler, J., Mailybaev, A. A., Bohm, J., Kuhl, U., Girschik, A., Libisch, F., Milburn, T.J., Rabl, P., Moiseyev, N.,  Rotter, S. (2016). Dynamically encircling an exceptional point for asymmetric mode switching. Nature 537(7618), 76–79. doi: View Article

 

  • Goldzak, T., Gantz, L., Gilary, I., Bahir, G., & Moiseyev, (2016). Vertical currents due to interatomic coulombic decay in experiments with two coupled quantum wells. Phys. Rev. B93(4). doi: View Article

 

  • Landau, A., Haritan, I., Kapralova-zd’anska, P. R., & Moiseyev, (2016). Atomic and molecular complex resonances from real eigenvalues using standard (hermitian) electronic structure calculations. J. Phys. Chem. A120(19), 3098–3108. doi: View Article

 

  • Landau, A., & Moiseyev, (2016). Molecular resonances by removing complex absorbing potentials via pade; application to co- and n-2(-). J. Chem. Phys.145(16). doi: View Article

 

  • Moiseyev, (2016). Near-field measurements of the even-order harmonics undetectable in far-field measurements. Phys. Rev. A94(6). doi: View Article

 

  • Am-shallem, M., Kosloff, R., & Moiseyev, (2016). Parameter estimation in atomic spectroscopy using exceptional points. Phys. Rev. A93(3). doi: View Article

 

 

 

2015

  • Goldzak, T., Gantz, L., Gilary, I., Bahir, G., & Moiseyev, (2015). Interatomic coulombic decay in two coupled quantum wells. Phys. Rev. B91(16). doi: View Article

 

  • Haritan, I., Gilary, I., Amitay, Z., & Moiseyev, (2015). Characteristic footprints of an exceptional point in the dynamics of li dimer under a laser field. J. Chem. Phys.143(15). doi: View Article

 

  • Landau, A., Haritan, I., Kapralova-zdanska, P. R., & Moiseyev, (2015). Advantages of complex scaling only the most diffuse basis functions in simultaneous description of both resonances and bound states. Mol. Phys.113(19-20, SI), 3141–3146. doi:View Article

 

  • Martiskainen, H., & Moiseyev, (2015). Perturbation theory for quasienergy floquet solutions in the low-frequency regime of the oscillating electric field. Phys. Rev. A91(2). doi: View Article

 

  • Moiseyev, (2015). Selection rules for harmonic generation in solids. Phys. Rev. A91(5). doi: View Article

 

  • Pawlak, M., & Moiseyev, (2015). Light-induced conical intersection effect enhancing the localization of molecules in optical lattices. Phys. Rev. A92(2). doi: View Article

 

  • Pawlak, M., Shagam, Y., Narevicius, E., & Moiseyev, (2015). Adiabatic theory for anisotropic cold molecule collisions. J. Chem. Phys.143(7). doi: View Article

 

  • Am-shallem, M., Kosloff, R., & MoiseyevN. (2015). Exceptional points for parameter estimation in open quantum systems: Analysis of the bloch equations. New J. Phys.17. doi: View Article

 

 

 

2014

  • Berry, M. V., & Moiseyev, N. (2014). Superoscillations and supershifts in phase space: Wigner and husimi function interpretations. Phys. A-Math. Theor.47(31). doi: View Article

 

  • Kapralova-Zdanska, P. R., & Moiseyev, N.,(2014). Helium in chirped laser fields as a time-asymmetric atomic switch. J. Chem. Phys.141(1). doi: View Article

 

  • Lee, T. E., Reiter, F., & Moiseyev, (2014). Entanglement and spin squeezing in non-hermitian phase transitions. Phys. Rev. Lett.113(25). doi: View Article

 

  • Pawlak, M., Moiseyev, N., & Sadeghpour, H. R. (2014). Highly excited rydberg states of a rubidium atom: Theory versus experiments. Phys. Rev. A89(4). doi: View Article

 

  • Pawlak, M., & Moiseyev, (2014). Conditions for the applicability of the kramers-henneberger approximation for atoms in high-frequency strong laser fields. Phys. Rev. A90(2). doi: View Article

 

 

 

2013

  • Balanarayan, P., & Moiseyev, (2013a). Chemistry in high-frequency strong laser fields: The story of hes molecule. Mol. Phys.111(12-13, SI), 1814–1822. doi: View Article
  • Balanarayan, P., & Moiseyev, (2013b). Linear stark effect for a sulfur atom in strong high-frequency laser fields. Phys. Rev. Lett.110(25). doi: View Article
  • Gilary, I., Mailybaev, A. A., & Moiseyev, (2013). Time-asymmetric quantum-state-exchange mechanism. Phys. Rev. A88(1). doi: View Article
  • Graefe, E.-m., Mailybaev, A. A., & Moiseyev, (2013). Breakdown of adiabatic transfer of light in waveguides in the presence of absorption. Phys. Rev. A88(3). doi: View Article
  • Halasz, G. J., Vibok, A., Moiseyev, , & Cederbaum, L. S. (2013). Nuclear-wave-packet quantum interference in the intense laser dissociation of the d-2(+) molecule. Phys. Rev. A88(4). doi: View Article
  • MoiseyevN. (2013). Sudden transition from a stable to an unstable harmonic trap as the adiabatic potential parameter is varied in a time-periodic harmonic trap. Phys. Rev. A88(3). doi: View Article
  • Uzdin, R., Dalla Torre, E. G., Kosloff, R., & MoiseyevN. (2013). Effects of an exceptional point on the dynamics of a single particle in a time-dependent harmonic trap. Phys. Rev. A88(2). doi: View Article

 

 

 

2012

  • Balanarayan, P., & Moiseyev, (2012). Strong chemical bond of stable he-2 in strong linearly polarized laser fields. Phys. Rev. A85(3). doi:View Article

 

  • Balanarayan, P., Sajeev, Y., & Moiseyev, (2012). Ab-initio complex molecular potential energy surfaces by the back-rotation transformation method. Chem. Phys. Lett.524, 84–89. doi: View Article

 

  • Gilary, I., & Moiseyev, (2012). Asymmetric effect of slowly varying chirped laser pulses on the adiabatic state exchange of a molecule. J. Phys. B-At. Mol. Opt. Phys.45(5). doi: View Article

 

  • Goldzak, T., Gilary, I., & Moiseyev, (2012). Resonance energies, lifetimes and complex energy potential curves from standard wave-packet calculations. Mol. Phys.110(9-10, SI), 537–546. doi: View Article

 

  • Halasz, G. J., Sindelka, M., Moiseyev, , Cederbaum, L. S., & Vibok, A. (2012). Light-induced conical intersections: Topological phase, wave packet dynamics, and molecular alignment. J. Phys. Chem. A116(11), 2636–2643. doi: View Article

 

  • Halasz, G. J., Vibok, A., Moiseyev, , & Cederbaum, L. S. (2012). Light-induced conical intersections for short and long laser pulses: Floquet and rotating wave approximations versus numerical exact results. J. Phys. B-At. Mol. Opt. Phys.45(13). doi: View Article

 

  • Halasz, G. J., Vibok, A., Sindelka, M., Cederbaum, L. S., & Moiseyev, (2012). The effect of light-induced conical intersections on the alignment of diatomic molecules. Chem. Phys.399, 146–150. doi: View Article

 

  • Moiseyev, , & Gupta, A. K. (2012). Distinguishing between aligned and randomly oriented polar molecules by using a combination of strong laser field with a weak static field. Mol. Phys.110(15-16), 1721–1728. doi: View Article

 

  • Uzdin, R., Guenther, U., Rahav, S., & Moiseyev, (2012). Time-dependent hamiltonians with 100% evolution speed efficiency. J. Phys. A-Math. Theor.45(41). doi: View Article

 

  • Uzdin, R., & Moiseyev, (2012). Rapid azimuthal rotation in the hermitian and non-hermitian landau-zener problem. J. Phys. A-Math. Theor.45(44, SI). doi: View Article

 

  • Uzdin, R., & Moiseyev, (2012b). Scattering from a waveguide by cycling a non-hermitian degeneracy. Phys. Rev. A85(3). doi: View Article

 

 

 

2011 

  • Alfassi, B., Peleg, o., Moiseyev, , & Segev, M. (2011b). Diverging rabi oscillations in subwavelength photonic lattices. Phys. Rev. Lett.106(7). doi: View Article

 

  • Cartarius, H., & Moiseyev, (2011). Fingerprints of exceptional points in the survival probability of resonances in atomic spectra. Phys. Rev. A84(1). doi: View Article

 

  • Cederbaum, L. S., Chiang, Y.-c., Demekhin, P. V., & Moiseyev, (2011). Resonant auger decay of molecules in intense x-ray laser fields: Light-induced strong nonadiabatic effects. Phys. Rev. Lett.106(12). doi: View Article

 

  • Cherkes, I., & Moiseyev, (2011). Electron relaxation in quantum dots by the interatomic coulombic decay mechanism. Phys. Rev. B83(11). doi: View Article

 

  • Halasz, G. J., Vibok, A., Sindelka, M., Moiseyev, , & Cederbaum, L. S. (2011). Conical intersections induced by light: Berry phase and wavepacket dynamics. J. Phys. B-At. Mol. Opt. Phys.44(17). doi: View Article

 

  • Moiseyev, (2011). Crossing rule for a pt-symmetric two-level time-periodic system. Phys. Rev. A83(5). doi: View Article

 

  • Moiseyev, , & Sindelka, M. (2011). The effect of polarization on the light-induced conical intersection phenomenon. J. Phys. B-At. Mol. Opt. Phys.44(11). doi: View Article

 

  • Sindelka, M., Moiseyev, , & Cederbaum, L. S. (2011). Strong impact of light-induced conical intersections on the spectrum of diatomic molecules. J. Phys. B-At. Mol. Opt. Phys.44(4). doi: View Article

 

  • Uzdin, R., Mailybaev, A., & Moiseyev, (2011). On the observability and asymmetry of adiabatic state flips generated by exceptional points. J. Phys. A-Math. Theor.44(43). doi:View Article

 

 

 

2010 

  • Goldzak, T., Gilary, I., & Moiseyev, (2010). Evaluation of partial widths and branching ratios from resonance wave functions. Phys. Rev. A82(5). doi: View Article

 

  • Klaiman, S., & Moiseyev, (2010). The absolute position of a resonance peak. J. Phys. B-At. Mol. Opt. Phys.43(18, SI). doi:View Article

 

  • Lefebvre, R., & Moiseyev, N. (2010). Localization of exceptional points with pade approximants. Phys. B-At. Mol. Opt. Phys.43(9). doi: View Article

 

  • Pawlak, M., Bylicki, M., Moiseyev, , & Sindelka, M. (2010). Constructive and destructive interferences of stark resonances induced by an ac field in atomic hydrogen. Phys. Rev. A82(6). doi: View Article

 

  • Sajeev, Y., & Moiseyev, (2010). Enhancement of charge transition from donor to acceptor in organic and biochemical reactions by the intermediate-mode-assisted tunneling mechanism. Chem. Phys.370(1-3), 115–118. doi: View Article

 

  • Uzdin, R., & Moiseyev, (2010). Classical harmonic generation in rare gases. Phys. Rev. A81(6). doi: View Article

 

 

 

2009

  • Cherkes, I., Klaiman, S., & Moiseyev, (2009). Spanning the hilbert space with an even tempered gaussian basis set. Int. J. Quantum Chem.109(13), 2996–3002. doi: View Article

 

  • Klaiman, S., & Moiseyev, (2009). Narrow resonances in complex potential energy surfaces. J. Phys. B-At. Mol. Opt. Phys.42(4). doi: View Article

 

  • Lefebvre, R., Atabek, O., Sindelka, M., & Moiseyev, N. (2009). Resonance coalescence in molecular photodissociation.  Phys. Rev. Lett.103(12). doi: View Article

 

  • Moiseyev, (2009a). Feshbach resonances: The branching of quantum mechanics into hermitian and non-hermitian formalisms. J. Phys. Chem. A113(26), 7660–7666. doi:View Article

 

  • Moiseyev, (2009b). Suppression of feshbach resonance widths in two-dimensional waveguides and quantum dots: A lower bound for the number of bound states in the continuum. Phys. Rev. Lett.102(16). doi:View Article

 

  • Peleg, o., Plotnik, Y., Moiseyev, , Cohen, O., & Segev, M. (2009). Self-trapped leaky waves and their interactions. Phys. Rev. A80(4). doi: View Article

 

  • Peleg, o., Segev, M., Bartal, G., Christodoulides, D. N., & Moiseyev, (2009). Nonlinear waves in subwavelength waveguide arrays: Evanescent bands and the “phoenix soliton”. Phys. Rev. Lett.102(16). doi: View Article

 

  • Sajeev, Y., Vysotskiy, V., Cederbaum, L. S., & Moiseyev, N. (2009). Continuum remover-complex absorbing potential: Efficient removal of the nonphysical stabilization points. Chem. Phys.131(21). doi: View Article

 

 

 

2008

  • Fleischer, A., & Moiseyev, (2008). Amplification of high-order harmonics using weak perturbative high-frequency radiation. Phys. Rev. A77(1). doi: View Article

 

  • Gilary, I., Sajeev, Y., Ciappina, M. F., Croy, A., Goletz, C. M., Klaiman, S., … MoiseyevN. (2008). Suppression of photoionization by a static field. Phys. Rev. Lett.101(16). doi: View Article

 

  • Klaiman, S., Guenther, U., & Moiseyev, (2008). Visualization of branch points in pt-symmetric waveguides. Phys. Rev. Lett.101(8). doi: View Article

 

  • Moiseyev, , Sindelka, M., & Cederbaum, L. S. (2008). Laser-induced conical intersections in molecular optical lattices. J. Phys. B-At. Mol. Opt. Phys.41(22). doi: View Article

 

  • Sajeev, Y., & Moiseyev, N. (2008). Theory of autoionization and photoionization in two-electron spherical quantum dots.Phys. Rev. B78(7). doi: View Article

 

  • Sajeev, Y., Sindelka, M., & Moiseyev, N. (2008). Hund’s multiplicity rule: From atoms to quantum dots. Chem. Phys.128(6). doi: View Article

 

 

 

2007

  • Gupta, A., & Moiseyev, (2007). Trapping of molecules by highly rotational excitations. Chem. Phys.338(2-3), 113–120. doi:View Article

 

  • Klaiman, S., Moiseyev, , & Sadeghpour, H. R. (2007). Interpretation of the fano lineshape reversal in quantum waveguides. Phys. Rev. B75(11). doi: View Article

 

  • Moiseyev, , Sindelka, M., & Cederbaum, L. S. (2007). Trapping of cold atoms in optical lattices by the quadrupole force. Phys. Lett. A362(2-3), 215–220. doi: View Article

 

  • Sajeev, Y., & Moiseyev, (2007). Reflection-free complex absorbing potential for electronic structure calculations: Feshbach-type autoionization resonances of molecules. J. Chem. Phys.127(3). doi: View Article

 

  • Sindelka, M., & Moiseyev, (2007). Floquet perturbation theory: Applicability of the finite level approximation in different gauges. Phys. Rev. A76(4). doi: View Article

 

  • Wasserman, A., & Moiseyev, (2007). Hohenberg-kohn theorem for the lowest-energy resonance of unbound systems. Phys. Rev. Lett.98(9). doi: View Article

 

  • Wei, Q., Kais, S., & Moiseyev, (2007). Frequency-dependent stabilization of he- by a superintense laser field. Phys. Rev. A76(1). doi: View Article

 

 

2006

  • Caspary, M., & Moiseyev, (2006). Simultaneous propagation of different wavepackets driven by lasers. Chem. Phys. Lett.431(1-3), 169–173. doi: View Article

 

  • Fleischer, A., & Moiseyev, (2006). Attosecond laser pulse synthesis using bichromatic high-order harmonic generation. Phys. Rev. A74(5). doi: View Article

 

  • Gilary, I., Kapralova-zd’anska, P. R., & Moiseyev, (2006). Ab initio calculation of harmonic generation spectra of helium using a time-dependent non-hermitian formalism. Phys. Rev. A74(5). doi: View Article

 

  • Klaiman, S., Moiseyev, , & Cederbaum, L. (2006). Exact solution of two bosons in a trap potential: Transition to fragmentation. Phys. Rev. A73(1). doi: View Article

 

  • Moiseyev, , & Seideman, T. (2006). Alignment of molecules by lasers: Derivation of the hamiltonian within the (t, t ‘) formalism. J. Phys. B-At. Mol. Opt. Phys.39(9), L211–L216. doi: View Article

 

  • Sajeev, Y., Sindelka, M., & Moiseyev, (2006). Reflection-free complex absorbing potential for electronic structure calculations: Feshbach type autoionization resonance of helium. Chem. Phys.329(1-3, SI), 307–312. doi:View Article

 

  • Scheit, S., Meyer, H., Moiseyev, , & Cederbaum, L. (2006). On the unphysical impact of complex absorbing potentials on the hamiltonian and its remedy. J. Chem. Phys.124(3). doi: View Article

 

  • Sindelka, M., & Moiseyev, (2006). Theory of diatomic molecules in an external electromagnetic field from first quantum mechanical principles. J. Phys. Chem. A110(16), 5561–5571. doi: View Article

 

  • Sindelka, M., Moiseyev, , & Cederbaum, L. S. (2006). Dipole and quadrupole forces exerted on atoms in laser fields: The nonperturbative approach. Phys. Rev. A74(5). doi: View Article

 

  • Wei, Q., Kais, S., & Moiseyev, (2006). New stable multiply charged negative atomic ions in linearly polarized superintense laser fields. J. Chem. Phys.124(20). doi: View Article

 

 

2005

 

  • Emmanouilidou, a., & Moiseyev, (2005). Stark and field-born resonances of an open square well in a static external electric field. J. Chem. Phys.122(19). doi: View Article

 

  • Fleischer, a., Gupta, A., & Moiseyev, (2005). Dynamical symmetry analysis of ionization and harmonic generation of atoms in bichromatic laser pulses. Int. J. Quantum Chem.103(6), 824–840. doi: View Article

 

  • Fleischer, a., & Moiseyev, (2005). Adiabatic theorem for non-hermitian time-dependent open systems. Phys. Rev. A72(3). doi: View Article

 

  • Gilary, I., Fleischer, a., & Moiseyev, (2005). Calculations of time-dependent observables in non-hermitian quantum mechanics: The problem and a possible solution. Phys. Rev. A72(1, A-B). doi: View Article

 

  • Lefebvre, R., Sindelka, M., & Moiseyev, (2005). Resonance positions and lifetimes for flexible complex absorbing potentials. Phys. Rev. A72(5). doi: View Article

 

  • Moiseyev, , & Cederbaum, L. (2005). Resonance solutions of the nonlinear schrodinger equation: Tunneling lifetime and fragmentation of trapped condensates. Phys. Rev. A72(3). doi: View Article

 

  • Osovski, S., & Moiseyev, (2005). Fingerprints of classical chaos in manipulation of cold atoms in the dynamical tunneling experiments. Phys. Rev. A72(3). doi: View Article

 

  • Shemer, O., Brisker, D., & Moiseyev, (2005). Optimal reflection-free complex absorbing potentials for quantum propagation of wave packets. Phys. Rev. A71(3, A). doi: View Article

 

  • Zdanska, P., & Moiseyev, (2005). Hartree-fock orbitals for complex-scaled configuration interaction calculation of highly excited feshbach resonances. J. Chem. Phys.123(19). doi: View Article

 

 

 

2004

  • Baldea, I., Gupta, A., Cederbaum, L., & Moiseyev, (2004). High-harmonic generation by quantum-dot nanorings. Phys. Rev. B69(24). doi: View Article

 

  • Fleischer, a., Averbukh, V., & Moiseyev, (2004). Non-hermitian quantum mechanics versus the conventional quantum mechanics: Effect of the relative phasing of bichromatic fields on high-order harmonic generation. Phys. Rev. A69(4). doi: View Article

 

  • Gokhberg, K., Vorobeichik, I., Narevicius, E., & Moiseyev, (2004). Solution of the vector wave equation by the separable effective adiabatic basis set method. J. Opt. Soc. Am. B-Opt. Phys.21(10), 1809–1817. doi: View Article

 

  • Klaiman, S., Gilary, I., & Moiseyev, (2004). Resonances for coulombic potentials by complex scaling and free-reflection complex-absorbing potentials. Phys. Rev. A70(1). doi: View Article

 

  • Lefebvre, R., & Moiseyev, (2004). Resonance poles in the complex-frequency domain for an oscillating barrier. Phys. Rev. A69(6). doi: View Article

 

  • Moiseyev, , Carr, L., Malomed, B., & Band, Y. (2004). Transition from resonances to bound states in nonlinear systems: Application to bose-einstein condensates. J. Phys. B-At. Mol. Opt. Phys.37(9), L193–L200. doi: View Article

 

  • Moiseyev, , Scheit, S., & Cederbaum, L. (2004). Non-hermitian quantum mechanics: Wave packet propagation on autoionizing potential energy surfaces. J. Chem. Phys.121(2), 722–725. doi: View Article

 

  • Narevicius, E., Moiseyev, , Sadeghpour, H., & Cederbaum, L. (2004). Extremely narrow peaks in predissociation of sodium dimer due to rovibronic coupling. J. Chem. Phys.121(8), 3527–3532. doi: View Article

 

  • Scheit, S., Averbukh, V., Meyer, H., Moiseyev, , Santra, R., Sommerfeld, T., … Cederbaum, L. (2004). On the interatomic coulombic decay in the ne dimer. J. Chem. Phys.121(17), 8393–8398. doi: View Article

 

  • Streltsov, A., Cederbaum, L., & Moiseyev, (2004). Ground-state fragmentation of repulsive bose-einstein condensates in double-trap potentials. Phys. Rev. A70(5). doi: View Article

 

  • Zavin, R., & Moiseyev, (2004). One-dimensional symmetric rectangular well: From bound to resonance via self-orthogonal virtual state. J. Phys. A-Math. Gen.37(16), 4619–4628. doi: View Article

 

  • Zdanska, P., & Moiseyev, (2004). Complex autocorrelation function and energy spectrum by classical trajectory calculations. J. Chem. Phys.121(13), 6175–6185. doi: View Article

 

  • Zdanska, P., Sadeghpour, H., & Moiseyev, (2004). Non-hermitian diabatic formulation of antiproton collision: Protonium formation. J. Phys. B-At. Mol. Opt. Phys.37(3), L35–L41. doi: View Article

 

 

 

2003

  • Baer, R., Neuhauser, D., Zdanska, P., & Moiseyev, (2003). Ionization and high-order harmonic generation in aligned benzene by a short intense circularly polarized laser pulse. Phys. Rev. A68(4, B). doi: View Article

 

  • Barkay, H., Narevicius, E., & Moiseyev, (2003). Non-hermitian scattering theory: Resonant tunneling probability amplitude in a quantum dot. Phys. Rev. B67(4). doi: View Article

 

  • Brener, S., Ivanov, M., & Moiseyev, (2003). Impact of electron ionization on the generation of high-order harmonics from molecules. Phys. Rev. A68(2). doi: View Article

 

  • Cederbaum, L., Friedman, R., Ryaboy, V., & Moiseyev, (2003). Conical intersections and bound molecular states embedded in the continuum. Phys. Rev. Lett.90(1). doi: View Article

 

  • Cederbaum, L., & Moiseyev, (2003). On the collapse and restoration of condensates in n dimensions in the mean-field approximation. Isr. J. Chem.43(3-4), 267–277. Conference on Perspectives in Chemistry, Tel Aviv, ISRAEL, JUN 15-17, 2003. doi: View Article

 

  • Gilary, I., Moiseyev, , Rahav, S., & Fishman, S. (2003). Trapping of particles by lasers: The quantum kapitza pendulum. J. Phys. A-Math. Gen.36(25), L409–L415. doi: View Article

 

  • Gupta, A., Alon, O., & Moiseyev, (2003). Generation and control of high-order harmonics by the interaction of an infrared laser with a thin graphite layer. Phys. Rev. B68(20). doi: View Article

 

  • Moiseyev, , & Lein, M. (2003). Non-hermitian quantum mechanics for high-order harmonic generation spectra. J. Phys. Chem. A107(37), 7181–7188. doi: View Article

 

  • Moiseyev, , & Narevich, R. (2003). The resonance phenomena associated with the time asymmetry in non-hermitian quantum mechanics. Int. J. Theor. Phys.42(10), 2131–2143. 5th Workshop on Time Asymmetric Quantum Theory, JACA, SPAIN, MAY-JUN -, 2001. doi: View Article

 

  • Narevicius, E., Serra, P., & Moiseyev, (2003). Critical phenomena associated with self-orthogonality in non-hermitian quantum mechanics. Europhys. Lett.62(6), 789–794. doi: View Article

 

  • Vorobeichik, I., Narevicius, E., Rosenblum, G., Orenstein, M., & Moiseyev, (2003). Electromagnetic realization of orders-of-magnitude tunneling enhancement in a double well system. Phys. Rev. Lett.90(17). doi: View Article

 

  • Zdanska, P., Averbukh, V., & Moiseyev, (2003). High harmonic generation spectra of aligned benzene in circular polarized laser field. J. Chem. Phys.118(19), 8726–8738. doi: View Article

 

 

2002

  • Averbukh, V., Alon, O., & Moiseyev, (2002). Stability and instability of dipole selection rules for atomic high-order-harmonic-generation spectra in two-beam setups. Phys. Rev. A65(6). doi:  View Article

 

  • Averbukh, V., Osovski, S., & Moiseyev, (2002). Controlled tunneling of cold atoms: From full suppression to strong enhancement. Phys. Rev. Lett.89(25). doi: View Article

 

  • Friedman, R., Podzielinski, I., Cederbaum, L., Ryaboy, V., & Moiseyev, (2002). Vibronic resonances arising from conically intersecting electronic states. J. Phys. Chem. A106(17), 4320–4335. doi: View Article

 

  • Gilary, I., & Moiseyev, (2002). Alternative representation of time-dependent hamiltonians with application to laser-driven systems. Phys. Rev. A66(6). doi: View Article

 

  • Kenis, A., Cederbaum, L., & Moiseyev, (2002). Enhancement of power transfer in periodic array of optical waveguides via intermediate bloch states. IEEE J. Quantum Electron.38(12), 1638–1646. doi: View Article

 

 

 

2001

  • Averbukh, V., Alon, O., & Moiseyev, (2001). High-order harmonic generation by molecules of discrete rotational symmetry interacting with circularly polarized laser field. Phys. Rev. A64(3). doi:View Article

 

  • Barkay, H., & Moiseyev, (2001). Complex density probability in non-hermitian quantum mechanics: Interpretation and a formula for resonant tunneling probability amplitude. Phys. Rev. A64(4). doi: View Article

 

  • Kenis, A., Vorobeichik, I., Orenstein, M., & Moiseyev, (2001). Non-evanescent adiabatic directional coupler. IEEE J. Quantum Electron.37(10), 1321–1328. doi: View Article

 

  • Moiseyev, , & Gluck, M. (2001). Non-hermitian delocalization from hermitian hamiltonians. Phys. Rev. E63(4, 1). doi: View Article

 

  • Moiseyev, , & Lefebvre, R. (2001). Continuity conditions for the wave function of a particle with a position-dependent mass in a laser field. Phys. Rev. A64(5). doi: View Article

 

  • Moiseyev, , Santra, R., Zobeley, J., & Cederbaum, L. (2001). Fingerprints of the nodal structure of autoionizing vibrational wave functions in clusters: Interatomic coulombic decay in ne dimer. J. Chem. Phys.114(17), 7351–7360. doi: View Article

 

  • Serra, P., Kais, S., & Moiseyev, (2001). Crossover phenomena and resonances in quantum systems. Phys. Rev. A64(6). doi: View Article

 

  • Zdanska, P., & Moiseyev, (2001). Phases and amplitudes of recurrences in autocorrelation function by a simple classical trajectory method. J. Chem. Phys.115(23), 10608–10620

 

 

2000

  • Alon, O., Averbukh, V., & Moiseyev, (2000). High harmonic generation of soft x-rays by carbon nanotubes. Phys. Rev. Lett.85(24), 5218–5221. doi: View Article

 

  • Kenis, A., Vorobeichik, I., & Moiseyev, (2000). Analysis of an intermediate-mode-assisted directional coupler using bloch theory. IEEE J. Quantum Electron.36(5), 563–573. doi: View Article

 

  • Moiseyev, (2000). Comment on calculations of excited states by the density functional theory. Chem. Phys. Lett.321(5-6), 469–472. doi: View Article

 

  • Narevicius, E., & Moiseyev, (2000a). Non-hermitian formulation of interference effect in scattering experiments. J. Chem. Phys.113(15), 6088–6095. doi: View Article

 

  • Narevicius, E., & Moiseyev, (2000b). Trapping of an electron due to molecular vibrations. Phys. Rev. Lett.84(8), 1681–1684. doi: View Article

 

  • Santra, R., Zobeley, J., Cederbaum, L., & Moiseyev, (2000). Interatomic coulombic decay in van der waals clusters and impact of nuclear motion. Phys. Rev. Lett.85(21), 4490–4493. doi: View Article

 

 

1999

  • Alacid, M., Leforestier, C., & Moiseyev, (1999). Bound and resonance states by a time-independent filter diagonalization method for large hamiltonian systems. Chem. Phys. Lett.305(3-4), 258–262. doi: View Article
  • Averbukh, V., Alon, O., & Moiseyev, (1999). Crossed-beam experiment: High-order harmonic generation and dynamical symmetry. Phys. Rev. A60(3), 2585–2586. doi: View Article

 

  • Averbukh, V., Moiseyev, , Schmelcher, P., & Cederbaum, L. (1999). Transition from rydberg to giant-dipole-moment states of hydrogen atoms in crossed fields: A suggestion for an experiment. Phys. Rev. A59(5), 3695–3700. doi: View Article

 

  • Friedman, R., Ryaboy, V., & Moiseyev, (1999). Scattering matrix determination by asymptotic analysis of complex scaled resonance wave functions: Model cl+h-2 nonadiabatic dynamics. J. Chem. Phys.111(16), 7187–7196. doi: View Article

 

  • Moiseyev, , & Cederbaum, L. (1999). Suppression of electron correlation and of autoionization by strong laser fields. J. Phys. B-At. Mol. Opt. Phys.32(12), L279–L284. doi: View Article

 

  • Moiseyev, , Gluck, M., & Korsch, H. (1999). Stark resonances in dc fields from short time propagation of the field-free hamiltonian. Chem. Phys. Lett.303(1-2), 22–26. doi: View Article

 

  • Vorobeichik, I., & Moiseyev, (1999a). Revealing broad overlapping resonances by strong laser fields. Phys. Rev. A59(2), 1699–1702. doi: View Article

 

  • Vorobeichik, I., & Moiseyev, (1999b). Tunneling control by high-frequency driving. Phys. Rev. A59(3), 2511–2514. doi: View Article

 

 

1998

  • Alon, O., Averbukh, V., & Moiseyev, (1998). Selection rules for the high harmonic generation spectra. Phys. Rev. Lett.80(17), 3743–3746. doi: View Article

 

  • Averbukh, V., & Moiseyev, (1998). Classical versus quantum harmonic-generation spectrum of a driven anharmonic oscillator in the high-frequency regime. Phys. Rev. A57(2), 1345–1354. doi: View Article
  • Gluck, M., Kolovsky, A., Korsch, H., & Moiseyev, (1998). Calculation of wannier-bloch and wannier-stark states. Eur. Phys. J. D4(3), 239–246. doi: View Article

 

  • Gluck, M., Korsch, H., & Moiseyev, (1998). Selective quasienergies from short time cross-correlation probability amplitudes by the filter-diagonalization method. Phys. Rev. E58(1), 376–381. doi: View Article

 

  • Moiseyev, (1998a). Derivations of universal exact complex absorption potentials by the generalized complex coordinate method. J. Phys. B-At. Mol. Opt. Phys.31(7), 1431–1441. doi: View Article

 

  • Moiseyev, , & Lefebvre, R. (1998). Reciprocity relations for time-independent transition probabilities of time-dependent hamiltonians. Phys. Rev. A58(5), 4218–4221. doi: View Article

 

  • Narevicius, E., & Moiseyev, (1998a). Fingerprints of broad overlapping resonances in the e+h-2 cross section. Phys. Rev. Lett.81(11), 2221–2224. doi: View Article

 

  • Narevicius, E., & Moiseyev, (1998b). Structured photo-absorption spectra of arhcl: Fingerprints of overlapping broad resonances. Chem. Phys. Lett.287(3-4), 250–254. doi: View Article

 

  • Schoendorff, J., Korsch, H., & Moiseyev, (1998). Semiclassical quantization of a system with mixed regular/chaotic dynamics. Europhys. Lett.44(3), 290–295. doi: View Article

 

  • Vorobeichik, I., Lefebvre, R., & Moiseyev, (1998). Field-induced barrier transparency. Europhys. Lett.41(2), 111–116. doi: View Article

 

  • Vorobeichik, I., & Moiseyev, (1998). State-to-state transition probabilities for time-dependent hamiltonians using complex absorbing potentials. J. Phys. B-At. Mol. Opt. Phys.31(4), 645–656. doi: View Article

 

  • Vorobeichik, I., Orenstein, M., & Moiseyev, (1998). Intermediate-mode-assisted optical directional couplers via embedded periodic structure. IEEE J. Quantum Electron.34(9), 1772–1781. doi: View Article

 

  • Zavin, R., Vorobeichik, I., & Moiseyev, (1998). Motion of wave-packets using the smooth-exterior-scaling complex potential. Chem. Phys. Lett.288(2-4), 413–417. doi: View Article

 

 

1997

  • Althorpe, S., Kouri, D., Hoffman, D., & Moiseyev, (1997). A time-independent wavepacket approach to the (t,t’)-method for treating time-dependent hamiltonian systems. Chem. Phys.217(2-3), 289–296. doi:Read Article
  • Jungwirth, P., Schmidt, B., & Moiseyev, (1997). Vibrationally resolved spectra from short-time quantum molecular dynamics by the filter-diagonalization method. Chem. Phys. Lett.280(3-4), 177–184. doi:Read Article
  • Moiseyev, (1997). Localization of multiphoton ionization/dissociation resonance wave functions in ac fields. Int. J. Quantum Chem.63(1), 279–285; View Article

 

  • Moiseyev, , Rucker, J., & Glickman, M. (1997). Reduction of ferric iron could drive hydrogen tunneling in lipoxygenase catalysis: Implications for enzymatic and chemical mechanisms. J. Am. Chem. Soc.119(17), 3853–3860. doi:Read Article

 

  • Moiseyev, , & Weinhold, F. (1997). High harmonic generation spectra of neutral helium by the complex-scaled (t,t’) method: Role of dynamical electron correlation. Phys. Rev. Lett.78(11), 2100–2103. doi:Read Article
  • Narevicius, E., Neuhauser, D., Korsch, H., & Moiseyev, (1997). Resonances from short time complex-scaled cross-correlation probability amplitudes by the filter-diagonalization method. Chem. Phys. Lett.276(3-4), 250–254. doi:Read Article

 

  • Pang, J., Neuhauser, D., & Moiseyev, (1997). Photoabsorption probability for a system governed by a time-dependent hamiltonian through the (t, t’) formalism. J. Chem. Phys.106(17), 6839–6847. doi:Read Article
  • Vorobeichik, I., Moiseyev, , & Miller, W. (1997). On the reflection probability in elastic scattering processes as obtained via the absorbing boundary conditions discrete variable representation (abc-dvr) green function formalism. Chem. Phys. Lett.275(5-6), 491–493. doi:Read Article

 

  • Vorobeichik, I., Moiseyev, , & Neuhauser, D. (1997). Effect of the second-derivative paraxial term in the scalar maxwell’s equation on amplitude losses and reflections in optical fibers. J. Opt. Soc. Am. B-Opt. Phys.14(5), 1207–1212. doi:Read Article

 

  • Vorobeichik, I., Moiseyev, , Neuhauser, D., Orenstein, M., & Peskin, U. (1997). Calculation of light distribution in optical devices by a global solution of an inhomogeneous scalar wave equation. IEEE J. Quantum Electron.33(7), 1236–1244. doi:Read Article

 

1996

  • Mandelshtam, V., & Moiseyev, (1996). Complex scaling of ab initio molecular potential surfaces. J. Chem. Phys.104(16), 6192–6195. doi:Read Article

– Back to top

1995

  • Alon, O., & Moiseyev, (1995). Broken dynamical symmetry condition to control a chemical reaction by the complex coordinate (t, t′) method. Chem. Phys.196(3), 499–510. doi:View Article
  • Alon, O., Moiseyev, , & Peres, A. (1995). Infinite matrices may violate the associative law. J. Phys. A-Math. Gen.28(6), 1765–1769. doi:View Article

 

  • Averbukh, V., & Moiseyev, (1995). Cutoff in molecular harmonic-generation spectra resulting from classical chaotic dynamics. Phys. Rev. A51(5), 3911–3915. doi: View Article
  • Averbukh, V., Moiseyev, , Mirbach, B., & Korsch, H. (1995). Dynamical tunneling through a chaotic region. Z. Phys. D-Atoms Mol. Clusters35(4), 247–256. doi:View Article
  • Lefebvre, R., Ryaboy, V., & Moiseyev, (1995). Resonance and reaction. Theochem-J. Mol. Struct.332(3), 209–215. doi:View Article
  • Leforestier, C., Yamashita, K., & Moiseyev, (1995). Transition state resonances by complex scaling: A three-dimensional study of ClHCl. J. Chem. Phys.103(19), 8468–8476. doi:View Article
  • Moiseyev, (1995). Cumulative reaction probability from time-independent scattering-theory. J. Chem. Phys.103(8), 2970–2973. doi:View Article

 

  • Moiseyev, , Alon, O., & Ryaboy, V. (1995). The (t,t’) method and gauge transformations for two electronic potential surfaces: An application to the partial width of h2+J. Phys. B-At. Mol. Opt. Phys.28(13), 2611–2620. doi:View Article
  • Moiseyev, , Chrysos, M., Atabek, O., & Lefebvre, R. (1995). Harmonic-generation in molecular-systems – application to h+in intense laser fields. J. Phys. B-At. Mol. Opt. Phys.28(10), 2007–2020. doi:View Article
  • Moiseyev, , Chrysos, M., & Lefebvre, R. (1995). The solution of the time-dependent Shrodinger equation by the (t,t’) method – application to intense field molecular photodissociation. J. Phys. B-At. Mol. Opt. Phys.28(13), 2599–2609. doi:View Article
  • Ryaboy, V., & Moiseyev, (1995). Three-dimensional study of predissociation resonances by the complex scaled discrete variable representation method: HCO/DCO. J. Chem. Phys.103(10), 4061–4068. doi:View Article

 

  • Vorobeichik, I., Peskin, U., & Moiseyev, (1995). Modal losses and design of modal irradiance patterns in an optical-fiber by the complex scaled (t,t’) method. J. Opt. Soc. Am. B-Opt. Phys.12(6), 1133–1141. doi:View Article

 

1994

  • Lefebvre, R., Moiseyev, , & Ryaboy, V. (1994). Thermal-reaction rates with a 2-point flux-flux correlation-function. Int. J. Quantum Chem.51(6), 465–472. 1st Congress of the

International-Society-for-Theoretical-Chemical-Physics, GIRONA, SPAIN, JUN 28-JUL 03, doi:10.1002/qua.560510613

  • Lipkin, N., Gerber, R., Moiseyev, , & Nathanson, G. (1994). Atom scattering studies of liquid structure and dynamics: Collisions of Xe with a model of squalane. J. Chem. Phys.100(11), 8408–8417. doi:10.1063/1.466788
  • Mandelshtam, V., Taylor, H., Ryaboy, V., & Moiseyev, (1994). Stabilization theory for computing energies and widths of resonances. Phys. Rev. A50(3), 2764–2766. doi:10.1103/PhysRevA.50.2764
  • Moiseyev, (1994). The solution of the time-dependent schrodinger-equation by the (t,t’) method – complex scaled multiphoton ionization dissociation resonance wave-functions are square integrable. J. Chem. Phys.101(11), 9716–9718. doi:View Article
  • Moiseyev, , Korsch, H., & Mirbach, B. (1994). Classical and quantum chaos in molecular rotational excitation by ac electric fields. Z. Phys. D-Atoms Mol. Clusters29(2), 125–138. doi:View Article
  • Peskin, U., Alon, O., & Moiseyev, (1994). The solution of the time-dependent schrodinger-equation by the (t,t’) method – multiphoton ionization/dissociation probabilities in different gauges of the electromagnetic potentials. J. Chem. Phys.100(10), 7310–7318. doi:View Article
  • Peskin, U., Kosloff, R., & Moiseyev, (1994). The solution of the time-dependent schrodinger-equation by the (t,t’)-method – the use of global polynomial propagators for time-dependent hamiltonians. J. Chem. Phys.100(12), 8849–8855. doi:View Article
  • Peskin, U., & Moiseyev, (1994). Time-independent scattering-theory for time-periodic hamiltonians – formulation and complex-scalign calculations of above-threshold-ionization spectra. Phys. Rev. A49(5, A), 3712–3728. doi:View Article
  • Rom, N., & Moiseyev, (1994). Transition state resonances by complex scaling: H + hand h + MuH. J. Phys. Chem.98(13), 3398–3406. doi:View Article
  • Ryaboy, V., Moiseyev, , Mandelshtam, V., & Taylor, H. (1994). Resonance positions and widths by complex scaling and modified stabilization methods: Van der Waals complex NeICl. J. Chem. Phys.101(7), 5677–5682. doi:View Article

 

1993

  • Bental, N., Moiseyev, , & Beswick, A. (1993). The effect of hamiltonian symmetry on generation of odd and even harmonics. J. Phys. B-At. Mol. Opt. Phys.26(18), 3017–3024. doi:View Article
  • Bental, N., Moiseyev, , Fishman, S., Bensch, F., & Korsch, H. (1993). Weak localization in a chaotic periodically driven anharmonic-oscillator. Phys. Rev. E47(3), 1646–1649. doi:View Article
  • Bental, N., Moiseyev, , & Kosloff, R. (1993a). Creation of discrete quasi-energy resonance states in strong electromagnetic-fields. J. Chem. Phys.98(12), 9610–9617. doi:View Article
  • Bental, N., Moiseyev, , & Kosloff, R. (1993b). Harmonic generation in ionizing systems by the complex scaled adiabatic-switch method. Phys. Rev. A48(3), 2437–2442. doi:View Article
  • Bental, N., Moiseyev, , Kosloff, R., & Cerjan, C. (1993). Harmonic-generation in ionizing systems by the time-dependent complex coordinate floquet method. J. Phys. B-At. Mol. Opt. Phys.26(8), 1445–1461. doi:View Article
  • Lefebvre, R., Ryaboy, V., & Moiseyev, (1993). Quantum-mechanical thermal rate constants using flux-flux correlation-functions and pade analytical continuation procedures.
    1. Phys.98(11), 8601–8605. doi:View Article
  • Lipkin, N., Moiseyev, , & Leforestier, C. (1993). A three-dimensional study of NeICl predissociation resonances by the complex scaled discrete variable representation method. J. Chem. Phys.98(3), 1888–1901. doi:View Article
  • Peskin, U., & Moiseyev, (1993a). The complex coordinate scattering-theory and its application to the study of the surface asymmetry effect in Helium diffraction from Copper. Int. J. Quantum Chem.46(3), 343–363. doi:View Article
  • Peskin, U., & Moiseyev, (1993b). The solution of the time-dependent schrodinger-equation by the (t,t’) method – theory, computational algorithm and applications. J. Chem. Phys.99(6), 4590–4596. doi:View Article
  • Rom, N., & Moiseyev, (1993). Absorbing boundary conditions by the partial integration exterior scaling method. J. Chem. Phys.99(10), 7703–7708. doi:View Article
  • Rom, N., Ryaboy, V., & Moiseyev, (1993a). Cumulative reaction probability by the complex coordinate scattering-theory. J. Chem. Phys.98(8), 6327–6331. doi:View Article
  • Rom, N., Ryaboy, V., & Moiseyev, (1993b). Thermal rate constants of multimode systems for the price of one – Aziridine. Chem. Phys. Lett.204(1-2), 175–182. doi:View Article
  • Ryaboy, V., Lefebvre, R., & Moiseyev, (1993). Cumulative reaction probabilities using Pade analytical continuation procedures. J. Chem. Phys.99(5), 3509–3515. doi:View Article
  • Ryaboy, V., & Moiseyev, (1993). Cumulative reaction probability from Siegert eigenvalues – model studies. J. Chem. Phys.98(12), 9618–9623. doi:10.1063/1.464392

 

1992

  • Alon, O., & Moiseyev, (1992). Balslev-combes theorem within the framework of the finite-matrix approximation. Phys. Rev. A46(7), 3807–3811. View Article
  • Bental, N., Moiseyev, , & Korsch, H. (1992). Quantum versus classical dynamics in a periodically driven anharmonic-oscillator. Phys. Rev. A46(3), 1669–1672. doi:View Article
  • Lipkin, N., Lefebvre, R., & Moiseyev, (1992). Resonances by complex nonsimilarity transformations of the hamiltonian. Phys. Rev. A45(7, A), 4553–4564. doi:View Article
  • Lipkin, N., Moiseyev, , & Certain, P. (1992). Resonances of triatomic vanderwaals molecules by the complex discrete variable representation. Theor. Chim. Acta82(1-2), 47–56. doi:View Article
  • Peskin, U., & Moiseyev, (1992a). Gas/surface complex coordinate scattering theory: HD/ag(111), HD/pt(111) rotationally inelastic transition intensities. J. Chem. Phys.96(3), 2347–2355. doi:View Article
  • Peskin, U., & Moiseyev, (1992b). The complex coordinate scattering theory and the Kohn variational method: A general formulation and application to long range potentials. J. Chem. Phys.97(9), 6443–6450. doi:View Article
  • Peskin, U., & Moiseyev, (1992c). The complex coordinate scattering theory: Broken inversion symmetry of corrugated surfaces in Helium diffraction from Cu(115). J. Chem. Phys.97(4), 2804–2808. doi:View Article
  • Rom, N., Moiseyev, , & Lefebvre, R. (1992). Thermal rate constants in collinear atom transfer-reactions by optimizing the position of the reactants products dividing surface. J. Chem. Phys.96(11), 8307–8313. doi:View Article

1991

  • Bensch, F., Korsch, H., & Moiseyev, (1991a). Decay dynamics of a time-periodic quantum system. J. Phys. B-At. Mol. Opt. Phys.24(6), 1321–1341.doi:View Article
  • Bensch, F., Korsch, H., & Moiseyev N. (1991b). Simple method for constructing the ionization spectra of driven time-periodic hamiltonians. Phys. Rev. A43(9), 5145–5148. doi: View Article
  • Bental, N., & Moiseyev N.(1991). Survival probabilities of complex gaussian wavepackets in chaotic and regular systems by the lanczos recursion method. J. Phys. A-Math. Gen.24(15), 3593–3603. doi: View Article
  • Bental, N., Moiseyev N. , Leforestier, C., & Kosloff, R. (1991). Positions, lifetimes, and partial widths of metastable quasi-energy states by solving the time-dependent complex-scaled schrodinger-equation. J. Chem. Phys.94(11), 7311–7318. doi: View Article
  • Engdahl, E., Maniv, T., & Moiseyev N. (1991). Gas-surface scattering cross-section by the complex coordinate method. J. Chem. Phys.94(9), 6330. doi: View Article
  • Engdahl, E., Moiseyev N. , & Maniv, T. (1991). A theory of he diffraction and resonance scattering from cu(115) by the complex coordinate method. J. Chem. Phys.94(2), 1636–1642. doi: View Article
  • Moiseyev, (1991a). New trends in quantum-chemistry – foreword. Isr. J. Chem.31(4),doi: View Article
  • Moiseyev, (1991b). Resonances, cross-sections, and partial widths by the complex coordinate method. Isr. J. Chem.31(4), 311–322. doi: View Article
  • Moiseyev, , & Korsch, H. (1991). Multiphoton dissociation or ionization – annihilation of discrete quasi-energy states in strong electromagnetic-fields. Phys. Rev. A44(11), 7797–7803. doi: View Article
  • Rom, N., Lipkin, N., & Moiseyev, (1991). Optical potentials by the complex coordinate method. Chem. Phys.151(2), 199–204. doi: View Article
  • Rom, N., Moiseyev, , & Lefebvre, R. (1991). Tunneling rates in a 2-dimensional symmetrical double-well potential surface by the exterior scaling procedure. J. Chem. Phys.,95(5), 3562–3569. doi: 10.1063/1.460858

 

1990

  • Csoto, a., Gyarmati, B., Kruppa, a., Pal, K., & MoiseyevN. (1990). Back-rotation of the wave function in the complex scaling method. Phys. Rev. A41(7), 3469–3477. doi:View Article
  • Lefebvre, R., & Moiseyev, N. (1990a). Artificial resonance procedure for the determination of quantum mechanical rate constants in the tunneling regime. J. Chem. Phys.93(10), 7173–7178. doi: View Article
  • Lefebvre, R., & Moiseyev, N. (1990b). Automerization of cyclobutadiene. J. Am. Chem. Soc.112(13), 5052–5054. doi: View Article
  • Lipkin, N., Moiseyev, N., & Leforestier, C. (1990). Resonance positions and widths by a similarity transformation of a Hermitian Hamiltonian matrix. J. Chem. Phys.92(1), 227–230. doi: View Article
  • Moiseyev, N. , Bensch, F., & Korsch, H. (1990). Multiphoton dissociation or ionization partial widths and branching ratios for time-periodic hamiltonians. Phys. Rev. A42(7), 4045–4049. doi: View Article
  • Moiseyev, N., & Korsch, H. (1990a). Metastable quasienergy positions and widths for time-periodic hamiltonians by the complex-coordinate method. Phys. Rev. A41(1), 498–501. doi: View Article
  • Moiseyev, N., & Peskin, U. (1990). Partial widths obtained by the complex resonance-scattering theory. Phys. Rev. A42(1), 255–260. doi: View Article
  • Peskin, U., Moiseyev, N., & Lefebvre, R. (1990). Partial widths by asymptotic analysis of the complex scaled resonance wave-function. J. Chem. Phys.92(5), 2902–2909. doi: View Article
  • Rom, N., Engdahl, E., & Moiseyev, N.(1990). Tunneling rates in bound systems using smooth exterior complex scaling within the framework of the finite basis set approximation.
    1. Phys.93(5), 3413–3419. doi: View Article

 

1989

  • Engdahl, E., & Moiseyev, (1989). Perturbation analysis of gas-surface diffractive selective adsorption resonance states. Mol. Phys.66(2), 465–478. doi: View Article
  • Lefebvre, R., & Moiseyev, (1989). Complex eigenvalues in bound systems: A two-channel example. Chem. Phys. Lett.163(4-5), 339–343. doi: View Article
  • Lipkin, N., Moiseyev, , & Brandas, E. (1989). Resonances by the exterior-scaling method within the framework of the finite-basis-set approximation. Phys. Rev. A40(2), 549–553. doi: View Article
  • Moiseyev, , Lipkin, N., Farrelly, D., Atabek, O., & Lefebvre, R. (1989). Determination of tunneling rates in bound systems using the complex coordinate method. J. Chem. Phys.91(10), 6246–6253. doi: View Article

1988

  • Benephraim, a., Folman, M., Heidberg, J., & Moiseyev, (1988). Predesorption of CO from the sodium chloride (100) surface: Study by the complex coordinate method. J. Chem. Phys.89(6), 3840–3846. doi:View Article
  • Engdahl, E., Maniv, T., & Moiseyev, (1988). Complex quasiprobability for atoms trapped on surfaces: A novel application of the complex coordinate method. J. Chem. Phys.88(9), 5864–5870. doi:View Article
  • Kolin, O., Leforestier, C., & Moiseyev, (1988). Resonance transition-probabilities by the complex Lanczos recursion method. J. Chem. Phys.89(11), 6836–6840. doi:View Article
  • Lipkin, N., Moiseyev, , & Katriel, J. (1988). Bound and resonance states for isochronous potentials. Chem. Phys. Lett.147(6), 603–607. doi:View Article
  • Moiseyev, , & Hirschfelder, J. (1988). Representation of several complex coordinate methods by similarity transformation operators. J. Chem. Phys.88(2), 1063–1065. doi:View Article

1987

  • Certain, P., & Moiseyev, (1987). Highly excited vibrational-states by adiabatic vs self-consistent-field methods. J. Chem. Phys.86(4), 2146–2151. doi:View Article
  • Lipkin, N., & Moiseyev, (1987). Resonance widths and positions of nondilation-analytical potential by the complex-coordinate method. Phys. Rev. A36(8), 4076–4077. doi: View Article
  • Maniv, T., Engdahl, E., & Moiseyev, (1987). Application of the complex rotation method to the study of resonance states of atoms at a corrugated surface. J. Chem. Phys.86(2), 1048–1054. doi: View Article
  • Schek, I., Moiseyev, , & Wyatt, R. (1987). Quantum-mechanical study of the survival probability in laser-driven molecules – the role of diagonal and off-diagonal disorder. Phys.Rev. A36(8), 3743–3750. doi: View Article

1986

  • Chang, J., Moiseyev, , & Wyatt, R. (1986). Stable highly excited vibrational eigenvalues without the variational principle. J. Chem. Phys.84(9), 4997–5006. doi:View Article286
  • Davidson, E., Engdahl, E., & Moiseyev, (1986). New bounds to resonance eigenvalues. Phys. Rev. A33(4), 2436–2439. doi:View Article
  • Engdahl, E., & Moiseyev, (1986). Resonances by the complex coordinate method with Hermitian hamiltonian .4. the linear correlation procedure. J. Chem. Phys.84(3), 1379–1384. doi:View Article
  • Froelich, P., Goscinski, O., & Moiseyev N. (1986). Resonances from the complex dilated hamiltonians in a dilation-adapted basis set with a new stabilization parameter. J. Chem. Phys.84(7), 3931–3936. doi:View Article
  • Milfeld, K., & Moiseyev N. (1986). Complex resonance eigenvalues by the Lanczos recursion method. Chem. Phys. Lett.130(1-2), 145–151. doi:View Article
  • Moiseyev N. , Brown, R., Wyatt, R., & Tzidoni, E. (1986). Analysis of chaotic eigenfunctions by the natural expansion method. Chem. Phys. Lett.127(1), 37–44. doi:View Article
  • Moiseyev N., Friesner, R., & Wyatt, R. (1986). Natural expansion of vibrational wave functions: RRGM with residue algebra. J. Chem. Phys.85(1), 331–336. doi:View Article
  • Moiseyev N. , & Wyatt, R. (1986). Natural expansion of multimode vibrational wave-functions. Chem. Phys. Lett.132(4-5), 396–400. doi:View Article

 

1985

  • Certain, P., & Moiseyev N. (1985). Weakly bound, strongly anisotropic vanderwaals molecules. J. Phys. Chem.89(14), 2974–2975. doi:10.1021/j100260a003
  • Feingold, M., Moiseyev N. , & Peres, A. (1985). Classical limit of quantum chaos. Chem. Phys. Lett.117(4), 344–346. doi:10.1016/0009-2614(85)85241-6
  • Moiseyev N. (1985). Distribution of energy-level spacing for the self-consistent-field approximation of vibrational motion. Chem. Phys. Lett.119(5), 388–392. doi:10.1016/0009-2614(85)80440-1
  • Moiseyev N. , & Certain, P. (1985). Calculation of rotational predissociation resonances of van der waals complexes by the complex coordinate method. J. Phys. Chem.89(18), 3853–3856. doi:10.1021/j100264a016
  • Moiseyev N. , & Goscinski, O. (1985). Effective potentials and the Gelfand-Levitan equation. Chem. Phys. Lett.120(6), 520–523. doi:View Article
  • Moiseyev N. , Maniv, T., Elber, R., & Gerber, R. (1985). Lifetimes of rotational resonances in molecule surface scattering quantum versus classical results. Mol. Phys.55(6), 1369–1381. doi:View Article
  • Moiseyev N. , Schatzberger, R., Froelich, P., & Goscinski, O. (1985). Study of mode specificity by the natural expansion analysis. J. Chem. Phys.83(8), 3924–3931. doi:10.1063/1.449104
  • Schatzberger, R., Halevi, E., & Moiseyev N. (1985). SCF study of mode selectivity in the unimolecular dissociation of formaldehyde. J. Phys. Chem.89(22), 4691–4695. doi:View Article

1984

  • Feingold, M., Moiseyev N., , & Peres, A. (1984). Ergodicity and mixing in quantum-theory .2. Phys. Rev. A30(1), 509–512. doi:View Article
  • Froelich, P., & Moiseyev N., (1984). Resonances by the complex coordinate method with Hermitian hamiltonian .3. autoionization. J. Chem. Phys.81(3), 1352–1354. doi: View Article
  • Moiseyev N., (1984a). On the new possibility of chemical bonding – anti-resonance phenomena. Chem. Phys. Lett.106(4), 354–355. doi:View Article
  • Moiseyev N., (1984b). The Hermitian representation of the complex coordinate method theory and application. LECTURE NOTES IN PHYSICS211, 235–256
  • Moiseyev N. , & Baradon, R. (1984). Vibrational predissociation resonances for a model h–c–c→h+c=c hamiltonian by the complex coordinate methoda). J. Chem. Phys.80(5), 1917–1921. doi:View Article
  • Moiseyev, , Froelich, P., & Watkins, E. (1984). Resonances by the complex coordinate method with Hermitian hamiltonian .2. error-estimates. J. Chem. Phys.80(8), 3623–3628. doi: View Article
  • Moiseyev, , & Katriel, J. (1984). Spurious complex energies for confining potentials in the complex-coordinate method. Chem. Phys. Lett.105(2), 194–196. doi:View Article

1983

  • Katriel, J., & Moiseyev, (1983). Approximate and exact treatments of second-harmonic generation: Regular vs “stochastic” behavior. J. Chem. Phys.78(2), 876–881. doi: View Article
  • Moiseyev, (1983a). Intramolecular energy-transfer in isolated molecules and the chaotic behavior of non-linear systems. J. Phys. Chem.87(18), 3420–3424. doi: View Article
  • Moiseyev, (1983b). On the scf method for coupled-vibron systems. Chem. Phys. Lett.98(3), 233–238. doi: View Article
  • Moiseyev, (1983c). Resonance by the complex coordinate method with Hermitean hamiltonian. Chem. Phys. Lett.99(4), 364–367. doi: View Article
  • Moiseyev, , & Peres, A. (1983). Motion of wave-packets in regular and chaotic systems. J. Chem. Phys.79(12), 5945–5950. doi: View Article
  • Moiseyev, (1982). Resonance states by the generalized complex variational method. Mol. Phys.47(3), 585–598. doi: View Article

 

 

1982

  • Moiseyev, N. (1982) Resonance states by the generalized complex variational method: Molecular Physics: Vol 47, No. 3 (tandfonline.com) View Article
  • MoiseyevN. & Certain, PR (1982).Quantum chaos and the decay of vibrational excitation in the Henon-Heiles system‏.  J. Phys. Chem., 86, 1149-1152, View Article

 

 

1981

  • Holmer, B., Moiseyev, , & Certain, P. (1981). Polar representation of complex-rotated resonance wave-functions. J. Phys. Chem.85(16), 2354–2359. doi:View Article
  • Moiseyev, (1981a). Studies of multi-channel resonances by the complex scaling method. Mol. Phys.42(1), 129–139. doi: View Article
  • Moiseyev, (1981b). Study of predissociation resonances by the complex coordinate method. Int. J. Quantum Chem.20(4), 835–842. doi: View Article
  • Moiseyev, (1981c). Virial-theorem for bound and resonance states as a special case of the scattering virial-theorem. Phys. Rev. A24(5), 2824–2825. doi: View Article
  • Moiseyev, , Certain, P., & Weinhold, F. (1981). Complex-coordinate calculations with complex basis-sets. Phys. Rev. A24(3), 1254–1259. doi: View Article
  • Moiseyev, , Friedland, S., & Certain, P. (1981). Cusps, theta-trajectories, and the complex virial-theorem. J. Chem. Phys.74(8), 4739–4740. doi: View Article
  • Certain, P.R., and Moiseyev, N., “New” Molecular and Resonance States, in Intermolecular Forces (Editor B. Pullman) 149, p.160, 1981 View Article

 

1980

  • Moiseyev, , & Friedland, S. (1980). Association of resonance states with the incomplete spectrum of finite complex-scaled hamiltonian matrices. Phys. Rev. A22(2), 618–624. doi: View Article
  • Moiseyev, , & Weinhold, F. (1980). Criteria of accuracy of resonance eigenvalues. Int. J. Quantum Chem.17(6), 1201–1211. doi: View Article
  • Moiseyev, , & Certain, P. (1979). Perturbation approach to the complex-rotation method. Mol. Phys.37(5), 1621–1632. doi: View Article

 

1979

  • Moiseyev, , & Corcoran, C. (1979). Autoionizing states of Hand H2− using the complex-scaling method. Phys. Rev. A20(3), 814–817. doi: View Article
  • Moiseyev, , & Weinhold, F. (1979). Electron-correlation effects in the positions and widths of 2-electron auto-ionizing resonances. Phys. Rev. A20(1), 27–31. doi: View Article

 

1978

  • Moiseyev, , & Certain, P. (1978). On the angular correlation of electrons in configuration interaction wavefunctions. Chem. Phys. Lett.55(3), 451–453. doi: View Article
  • Moiseyev, , Certain, P., & Weinhold, F. (1978a). Complex-coordinate studies of Helium autoionizing resonances. Int. J. Quantum Chem.14(6), 727–736. doi: View Article
  • Moiseyev, , Certain, P., & Weinhold, F. (1978b). Resonance properties of complex-rotated hamiltonians. Mol. Phys.36(6), 1613–1630. doi: View Article
  • Moiseyev, , Kventsel, G., & Katriel, J. (1978). Non-non crossings in molecular potential-energy curves – comment. Chem. Phys. Lett.57(3), 477–478. doi: View Article

 

1977

  • Moiseyev, , & Katriel, J. (1977). Generalized perturbation-theory – quality of 1st-order wave-function. Theor. Chim. Acta44(2), 201–213. doi: View Article
  • Moiseyev, , Katriel, J., & Boyd, R. (1977). Fermi and Coulomb correlations in 2-1-s state of Helium isoelectronic sequence. Theor. Chim. Acta45(1), 61–67. doi: View Article
  • Moiseyev, N., Katriel, J., & Trindle, C. (1977). A weakly bound, quantum-mechanical buridan’s ass. J. Quantum Chem.12(4), 759–763. doi: View Article

 

1976

  • Moiseyev, , & Katriel, J. (1976a). Gaussian potential – bound-states in continuum. Theor. Chim. Acta41(4), 321–328. doi: View Article
  • Moiseyev, , & Katriel, J. (1976b). Simple treatment of 2-electron 1-photon transitions. Phys. Lett. A58(5), 303–304. doi: View Article
  • Moiseyev, , & Katriel, J. (1976c). Stability, continuity, and symmetry of variational wave-functions. Int. J. Quantum Chem.10(6), 1011–1023. doi: View Article
  • Moiseyev, , & Platzner, I. (1976). Isotope-effect in gas-solid chromatography of SF6J. Chromatogr. Sci.14(3), 143–148. doi: View Article
  • Moiseyev, (1975). Isotope-effect on physical adsorption on a nonhomogeneous surface. Journal Of The Chemical Society-Faraday Transactions I71, 1830–1837. doi: View Article

 

1975

  • Moiseyev, , & Katriel, J. (1975a). Coupling of radial and angular-correlations in 2-electron atoms. Chem. Phys.10(1), 67–72. doi: View Article
  • Moiseyev, , & Katriel, J. (1975b). Generalized perturbation-theory. Phys. Lett. A54(2), 125–127. doi: View Article
  • Moiseyev, , Katriel, J., & Boyd, R. (1975). Fermi hole in atoms. J. Phys. B-At. Mol. Opt. Phys.8(8), L130–L133. doi: View Article

 

1974

  • Moiseyev, , & Katriel, J. (1974). Continuity dilemma and Hartree-Fock instabilities. Chem. Phys. Lett.29(1), 69–72. doi: View Article

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Physics Publications List (by Journals)

Nature

  • Klein, A., Shagam, Y., Skomorowski, W., Zuchowski, P. S., Pawlak, M., Janssen, L. M. C, Moiseyev, N., van de Meerakker, S.Y.T, van der Avoird, A., Koch, C.P., and Narevicius, E. (2017). Directly probing anisotropy in atom-molecule collisions through quantum scattering resonances. Nature , 13(1), 35–38. doi: View Article

 

  • Doppler, J., Mailybaev, A. A., Bohm, J., Kuhl, U., Girschik, A., Libisch, F., Milburn, T.J., Rabl, P., Moiseyev, N. ,  Rotter, S. (2016). Dynamically encircling an exceptional point for asymmetric mode switching. Nature537(7618), 76–79. doi: View Article

 

Phys. Rev. Lett. (PRL)

 

  • Tsinovoy A., Katz O., Landau, A. &  Moiseyev, N. (2022). Enhanced coupling of electron and nuclear spins by quantum tunneling resonances. Phys. Rev. Lett. 128, 013401
    View Article

 

  • Ben-asher, A., Simsa, D., Uhlirov, T., Sindelka, M., & Moiseyev,  N. (2020). Laser control of resonance tunneling via an exceptional point.  Phys. Rev. Lett., 124(25). doi: View Article

 

  • Goldzak, T., Mailybaev, A. A., & Moiseyev, N. (2018). Light stops at exceptional points.  Phys. Rev. Lett., 120(1). doi: View Article

 

  • Lee, T. E., Reiter, F., & Moiseyev, N.  (2014). Entanglement and spin squeezing in non-hermitian phase transitions.  Phys. Rev. Lett., 113(25). doi: View Article

 

  • Balanarayan, P., & Moiseyev, N. (2013). Linear stark effect for a sulfur atom in strong high-frequency laser fields.  Phys. Rev. Lett., 110(25). doi: View Article

 

  • Alfassi, B., Peleg, o., Moiseyev, N. & Segev, M. (2011b). Diverging rabi oscillations in subwavelength photonic lattices.  Phys. Rev. Lett., 106(7). doi: View Article

 

  • Lefebvre, R., Atabek, O., Sindelka, M., & Moiseyev, N. (2009). Resonance coalescence in molecular photodissociation.  Phys. Rev. Lett., 103(12). doi:  View Article

 

  • Moiseyev, N. (2009). Suppression of feshbach resonance widths in two-dimensional waveguides and quantum dots: A lower bound for the number of bound states in the continuum.  Phys. Rev. Lett., 102(16). doi: View Article

 

  • Gilary, I., Sajeev, Y., Ciappina, M. F., Croy, A., Goletz, C. M., Klaiman, S.,  Moiseyev,  N.(2008). Suppression of photoionization by a static field. Phys. Rev. Lett., 101(16). doi: View Article

 

  • Klaiman, S., Guenther, U., & Moiseyev, N.(2008). Visualization of branch points in pt-symmetric waveguides.  Phys. Rev. Lett., 101(8). doi: View Article

 

  • Wasserman, A., & Moiseyev, N. (2007). Hohenberg-kohn theorem for the lowest-energy resonance of unbound systems.  Phys. Rev. Lett., 98(9). doi: View Article

 

  • Cederbaum, L., Friedman, R., Ryaboy, V., & Moiseyev,  N.(2003). Conical intersections and bound molecular states embedded in the continuum.  Phys. Rev. Lett., 90(1). doi:  View Article

 

  • Vorobeichik, I., Narevicius, E., Rosenblum, G., Orenstein, M., & Moiseyev, N. (2003). Electromagnetic realization of orders-of-magnitude tunneling enhancement in a double well system.  Phys. Rev. Lett., 90(17). doi: View Article

 

  • Averbukh, V., Osovski, S., & Moiseyev, N. (2002). Controlled tunneling of cold atoms: From full suppression to strong enhancement. Phys. Rev. Lett., 89(25). doi:  View Article

 

  • Alon, O., Averbukh, V., & Moiseyev,  N.(2000). High harmonic generation of soft x-rays by carbon nanotubes.  Phys. Rev. Lett., 85(24), 5218–5221. doi: View Article

 

  • Narevicius, E., & Moiseyev, N. (2000). Trapping of an electron due to molecular vibrations.  Phys. Rev. Lett., 84(8), 1681–1684. doi: View Article

 

  • Santra, R., Zobeley, J., Cederbaum, L., & Moiseyev,  N.(2000). Interatomic coulombic decay in van der waals clusters and impact of nuclear motion.  Phys. Rev. Lett., 85(21), 4490–4493. doi: View Article

 

  • Alon, O., Averbukh, V., & Moiseyev, N. (1998). Selection rules for the high harmonic generation spectra.  Phys. Rev. Lett., 80(17), 3743–3746. doi: View Article

 

  • Narevicius, E., & Moiseyev, N.(1998a). Fingerprints of broad overlapping resonances in the e+h-2 cross section. Phys. Rev. Lett., 81(11), 2221–2224. doi: View Article

 

  • Moiseyev, N. , & Weinhold, F. (1997). High harmonic generation spectra of neutral helium by the complex-scaled (t,t’) method: Role of dynamical electron correlation. Phys. Rev. Lett.78(11), 2100–2103. Doi:View Article

 

Phys. Rev. A

  • Moiseyev, N., Vendrell, O., Cederbaum, L. S. , and  Sindelka, M. (2022). Polariton entering a continuum: Giant diffuse polaritonic resonance, Letter-Phys. Rev. A, accepted for publication
  • Moiseyev, N. , & Sindelka, M. (2021). Transfer of information through waveguides near an exceptional point.  Phys. Rev. A, 103(3). doi: View Article

 

  • Sindelka, M., Ben-asher, A., & Moiseyev, N. (2021). Acceleration-gauge hamiltonian for a laser-driven particle with a position-dependent mass.  Phys. Rev. A103(5). doi: View Article

 

  • Feilhauer, J., Schumer, A., Doppler, J., Mailybaev, A. A., Bohm, J., Kuhl, U., … Rotter, S. (2020). Encircling exceptional points as a non-hermitian extension of rapid adiabatic passage.   Phys. Rev. A, 102(4). doi: View Article

 

  • Shmuel, G., & Moiseyev, N. (2020). Linking scalar elastodynamics and non-hermitian quantum mechanics.  Phys. Rev. Appl., 13(2). doi: View Article

 

  • Berman, M., & Moiseyev, N. (2018). Exceptional points in the riesz-feller hamiltonian with an impenetrable rectangular potential.  Phys. Rev. A98(4). doi: View Article

 

  • Pick, A., & Moiseyev, N. (2018). Polarization dependence of the propagation constant of leaky guided modes.  Phys. Rev. A97(4). doi: View Article

 

  • Sindelka, M., & Moiseyev, N. (2018). Quantum uncertainties and heisenberg-like uncertainty relations for a weak measurement scheme involving two arbitrary non commuting observables.   Phys. Rev. A, 97(1). doi: View Article

 

  • Sindelka, M., Santos, L. F., & Moiseyev, N. (2017). Excited-state quantum phase transitions studied from a non-hermitian perspective.  Phys. Rev. A, 95(1). doi: View Article

 

  • Moiseyev, N. (2016). Near-field measurements of the even-order harmonics undetectable in far-field measurements.   Phys. Rev. A, 94(6). doi: View Article

 

  • Am-shallem, M., Kosloff, R., & Moiseyev, N. (2016). Parameter estimation in atomic spectroscopy using exceptional points.   Phys. Rev. A, 93(3). doi: View Article

 

  • Martiskainen, H., & Moiseyev, N. (2015). Perturbation theory for quasienergy floquet solutions in the low-frequency regime of the oscillating electric field.   Phys. Rev. A, 91(2). doi: View Article

 

  • Moiseyev, N. (2015). Selection rules for harmonic generation in solids.   Phys. Rev. A, 91(5). doi: View Article

 

  • Pawlak, M., & Moiseyev, N. (2015). Light-induced conical intersection effect enhancing the localization of molecules in optical lattices.  Phys. Rev. A, 92(2). doi: View Article

 

  • Pawlak, M., Moiseyev, N., & Sadeghpour, H. R. (2014). Highly excited rydberg states of a rubidium atom: Theory versus experiments.  Phys. Rev. A, 89(4). doi: View Article

 

  • Pawlak, M., & Moiseyev, N. (2014). Conditions for the applicability of the kramers-henneberger approximation for atoms in high-frequency strong laser fields.    Phys. Rev. A, 90(2). doi: View Article

 

  • Graefe, E.-m., Mailybaev, A. A., & Moiseyev, N. (2013). Breakdown of adiabatic transfer of light in waveguides in the presence of absorption.   Phys. Rev. A, 88(3). doi: View Article

 

  • Halasz, G. J., Vibok, A., Moiseyev, N., & Cederbaum, L. S. (2013). Nuclear-wave-packet quantum interference in the intense laser dissociation of the d-2(+) molecule.   Phys. Rev. A, 88(4). doi: View Article

 

  • Moiseyev, N. (2013). Sudden transition from a stable to an unstable harmonic trap as the adiabatic potential parameter is varied in a time-periodic harmonic trap.  Phys. Rev. A, 88(3). doi: View Article

 

  • Uzdin, R., Dalla Torre, E. G., Kosloff, R., & Moiseyev, N. (2013). Effects of an exceptional point on the dynamics of a single particle in a time-dependent harmonic trap.   Phys. Rev. A, 88(2). doi: View Article

 

  • Uzdin, R., &Moiseyev, N.  (2012b). Scattering from a waveguide by cycling a non-hermitian degeneracy.  Phys. Rev. A, 85(3). doi: View Article

 

  •  Alon, O., & Moiseyev, N. (1992). Balslev-combes theorem within the framework of the finite-matrix approximation.  Phys. Rev. A46(7), 3807–3811.doi:View Article

 

  • Moiseyev,N. , Bensch, F., & Korsch, H. (1990). Multiphoton dissociation or ionization partial widths and branching ratios for time-periodic hamiltonians. Phys. Rev. A42(7),4045–4049. doi: View Article

 

  • Moiseyev, N. & Bensch, F., & Korsch, H. (1990). Multiphoton dissociation or ionization partial widths and branching ratios for time-periodic hamiltonians.  Phys. Rev. A42(7), 4045–4049. doi:View Article

 

  • MoiseyevN.  JCP & Peskin, U. (1990). Partial widths obtained by the complex resonance-scattering theory.  Phys. Rev. A42(1), 255–260. doi: View Article

 

  • Lipkin, N., Moiseyev, N, & Brandas, E. (1989). Resonances by the exterior-scaling method within the framework of the finite-basis-set approximation.  Phys. Rev. A40(2), 549–553. doi:View Article

 

  • Davidson, E., Engdahl, E., & Moiseyev, N. (1986). New bounds to resonance eigenvalues.  Phys. Rev. A33(4), 2436–2439. doi: View Article

 

 

Phys. Rev. B

  • Goldzak, T., Gantz, L., Gilary, I., Bahir, G., & Moiseyev, N. (2016). Vertical currents due to interatomic coulombic decay in experiments with two coupled quantum wells.   Phys. Rev. B, 93(4). doi: View Article

 

  • Goldzak, T., Gantz, L., Gilary, I., Bahir, G., & Moiseyev, N. (2015). Interatomic coulombic decay in two coupled quantum wells.   Phys. Rev. B,  91(16). doi: View Article

 

  • Cherkes, I., & Moiseyev, N. (2011). Electron relaxation in quantum dots by the interatomic coulombic decay mechanism.   Phys. Rev. B, 83(11). doi: View Article

 

  • Sajeev, Y., & Moiseyev, N. (2008). Theory of autoionization and photoionization in two-electron spherical quantum dots.  Phys. Rev. B,  78(7). doi: View Article

 

  • Klaiman, S., Moiseyev, N. & Sadeghpour, H. R. (2007). Interpretation of the fano lineshape reversal in quantum waveguides.   Phys. Rev. B, 75(11). doi: View Article

 

  • Baldea, I., Gupta, A., Cederbaum, L., & Moiseyev, N. (2004). High-harmonic generation by quantum-dot nanorings.  Phys. Rev. B,, 69(24). doi: View Article

 

  • Barkay, H., Narevicius, E., & Moiseyev, N. (2003). Non-hermitian scattering theory: Resonant tunneling probability amplitude in a quantum dot.   Phys. Rev. B67(4). doi: View Article

 

  • Gupta, A., Alon, O., & Moiseyev, N. (2003). Generation and control of high-order harmonics by the interaction of an infrared laser with a thin graphite layer.   Phys. Rev. B, 68(20). doi: View Article

 

Phys. Rev. E

  • Moiseyev, N. , & Gluck, M. (2001). Non-hermitian delocalization from hermitian hamiltonians. Phys. Rev. E63(4, 1). doi: View Article
  • Gluck, M., Korsch, H., & MoiseyevN. (1998). Selective quasienergies from short time cross-correlation probability amplitudes by the filter-diagonalization method.  Phys. Rev. E58(1), 376–381. doi: View Article
  • Bental, N., Moiseyev, N., Fishman, S., Bensch, F., & Korsch, H. (1993). Weak localization in a chaotic periodically driven anharmonic-oscillator. Phys. Rev. E47(3), 1646–1649. doi:View Article

 

Phys. Rev. Research

  • Pick, A., Silberstein, S., Moiseyev, N., & Bar-gill, N. (2019). Robust mode conversion in nv centers using exceptional points. Phys.  Rev. Res., 1(1). doi: View Article

 

J. Phys. A

  • Petra Ruth Kaprálová-ˇZˇdánská,∗ , Milan ˇSindelka & Moiseyev N., (2022). Coalescence of two branch points in complex time marks the end of rapid adiabatic passage and the start of Rabi oscillations. J. Phys. A: Math. Theor. 55, 284001 (2022); doi: View Article

 

  • Moiseyev N., &  Šindelka  M. (2022) . Tuning quantum–classical correspondence for atomic and molecular systems in a cavity . J. Phys. A: Math. Theor.55 (22) 224014 View Article 

 

  • Neufeld, O., Sharabi, Y., Ben-asher, A., & Moiseyev N., (2018). Calculating bound states resonances and scattering amplitudes for arbitrary 1d potentials with piecewise parabolas. J.  Phys A-Math. Theor., 51(47). doi: View Article

 

  • Uzdin, R., Guenther, U., Rahav, S., & Moiseyev, N. (2012). Time-dependent hamiltonians with 100% evolution speed efficiency.  J. Phys. A-Math. Theor., 45(41). doi: View Article

 

  • Uzdin, R., & Moiseyev, N. (2012). Rapid azimuthal rotation in the hermitian and non-hermitian landau-zener problem.  J. Phys. A-Math. Theor., 45(44, SI). doi: View Article

 

  • Uzdin, R., Mailybaev, A., & Moiseyev, N. (2011). On the observability and asymmetry of adiabatic state flips generated by exceptional points. J. Phys. A-Math. Theor., 44(43). doi: View Article

 

  • Zavin, R., & Moiseyev, N. (2004). One-dimensional symmetric rectangular well: From bound to resonance via self-orthogonal virtual state.  J. Phys. A-Math. Gen., 37(16), 4619–4628. doi: View Article

 

  • Gilary, I., Moiseyev, N., Rahav, S., & Fishman, S. (2003). Trapping of particles by lasers: The quantum kapitza pendulum.  J. Phys. A-Math. Gen., 36(25), L409–L415. doi: View Article

 

  • Alon, O., Moiseyev, N. , & Peres, A. (1995). Infinite matrices may violate the associative law.  J. Phys. A-Math. Gen., 28(6), 1765–1769. doi: View Article

 

  • Bental, N., & Moiseyev N.(1991). Survival probabilities of complex gaussian wavepackets in chaotic and regular systems by the lanczos recursion method.  J. Phys. A-Math. Gen., 24(15), 3593–3603. doi:View Article

 

J. Phys. B

 

  • Gilary, I., & Moiseyev, N. (2012). Asymmetric effect of slowly varying chirped laser pulses on the adiabatic state exchange of a molecule.  J. Phys. B -At. Mol. Opt. Phys., 45(5). doi: View Article

 

  • Halasz, G. J., Vibok, A., Moiseyev, N., & Cederbaum, L. S. (2012). Light-induced conical intersections for short and long laser pulses: Floquet and rotating wave approximations versus numerical exact results.  J. Phys. B-At. Mol. Opt. Phys., 45(13). doi: View Article

 

  • Halasz, G. J., Vibok, A., Sindelka, M., Moiseyev, N., & Cederbaum, L. S. (2011). Conical intersections induced by light: Berry phase and wavepacket dynamics.  J. Phys. B-At. Mol. Opt. Phys., 44(17). doi: View Article

 

  • Moiseyev, N., & Sindelka, M. (2011). The effect of polarization on the light-induced conical intersection phenomenon.  J. Phys. B-At. Mol. Opt. Phys., 44(11). doi: View Article

 

  • Sindelka, M., Moiseyev, N. & Cederbaum, L. S. (2011). Strong impact of light-induced conical intersections on the spectrum of diatomic molecules.  J. Phys. B-At. Mol. Opt. Phys., 44(4). doi: View Article

 

  • Klaiman, S., & Moiseyev, N. (2010). The absolute position of a resonance peak. J. Phys. B-At. Mol. Opt. Phys., 43(18, SI). doi: View Article

 

  • Klaiman, S., & Moiseyev, N. (2009). Narrow resonances in complex potential energy surfaces. J. Phys. B-At. Mol. Opt. Phys., 42(4). doi: View Article

 

  • Moiseyev, N. , Sindelka, M., & Cederbaum, L. S. (2008). Laser-induced conical intersections in molecular optical lattices.  J. Phys. B-At. Mol. Opt. Phys., 41(22). doi: View Article

 

  • Moiseyev N. & Seideman, T. (2006). Alignment of molecules by lasers: Derivation of the hamiltonian within the (t, t ‘) formalism. J. Phys. B-At. Mol. Opt. Phys., 39(9), L211–L216. doi: View Article

 

  • Moiseyev N. , Carr, L., Malomed, B., & Band, Y. (2004). Transition from resonances to bound states in nonlinear systems: Application to bose-einstein condensates. J. Phys. B-At. Mol. Opt. Phys., 37(9), L193–L200. doi: View Article

 

  • Zdanska, P., Sadeghpour, H., & Moiseyev, N. (2004). Non-hermitian diabatic formulation of antiproton collision: Protonium formation.  J. Phys. B-At. Mol. Opt. Phys., 37(3), L35–L41. doi: View Article

 

  • Moiseyev N, & Cederbaum, L. (1999). Suppression of electron correlation and of autoionization by strong laser fields.  J. Phys. B-At. Mol. Opt. Phys., 32(12), L279–L284. doi: View Article

 

  • Moiseyev,N. (1998). Derivations of universal exact complex absorption potentials by the generalized complex coordinate method.  J. Phys. B-At. Mol. Opt. Phys., 31(7), 1431–1441. doi: View Article

 

  • Vorobeichik, I., & Moiseyev N., (1998). State-to-state transition probabilities for time-dependent hamiltonians using complex absorbing potentials.  J. Phys. B-At. Mol. Opt. Phys., 31(4), 645–656. doi: View Article

 

  • Moiseyev, N. Alon, O., & Ryaboy, V. (1995). The (t,t’) method and gauge transformations for two electronic potential surfaces: An application to the partial width of H2+.  J. Phys. B-At. Mol. Opt. Phys., 28(13), 2611–2620. doi:View Article

 

  • Moiseyev, N, Chrysos, M., Atabek, O., & Lefebvre, R. (1995). Harmonic-generation in molecular-systems – application to h+2 in intense laser fields.  J. Phys. B-At. Mol. Opt. Phys.,28(10), 2007–2020. doi: View Article

 

  • Moiseyev, N. Chrysos, M., & Lefebvre, R. (1995). The solution of the time-dependent Shrodinger equation by the (t,t’) method – application to intense field molecular photodissociation.  J. Phys. B-At. Mol. Opt. Phys., 28(13), 2599–2609.

 

  • Bental, N., Moiseyev, N  , & Beswick, A. (1993). The effect of hamiltonian symmetry on generation of odd and even harmonics.  J. Phys. B-At. Mol. Opt. Phys., 26(18), 3017–3024. doi: View Article

 

  • Bental, N., Moiseyev, N, Kosloff, R., & Cerjan, C. (1993). Harmonic-generation in ionizing systems by the time-dependent complex coordinate floquet method.  J. Phys. B-At. Mol. Opt. Phys.26(8), 1445–1461. doi: View Article

 

  • Bensch, F., Korsch, H., & Moiseyev, N, (1991). Decay dynamics of a time-periodic quantum system.  J. Phys. B-At. Mol. Opt. Phys., 24(6), 1321–1341. doi: View Article

 

  • Moiseyev, N, Katriel, J., & Boyd, R. (1975). Fermi hole in atoms. J. Phys. B-At. Mol. Opt. Phys., 8(8), L130–L133. doi:  View Article

 

 

Europhys. Lett.

 

  • Narevicius, E., Serra, P., & Moiseyev, N,(2003). Critical phenomena associated with self-orthogonality in non-hermitian quantum mechanics.  Europhys. Lett., 62(6), 789–794. doi: View Article

 

  • Schoendorff, J., Korsch, H., & Moiseyev, N, (1998). Semiclassical quantization of a system with mixed regular/chaotic dynamics.  Europhys. Lett., 44(3), 290–295. doi: View Article

 

  • Vorobeichik, I., Lefebvre, R., &  Moiseyev, N, (1998). Field-induced barrier transparency.  Europhys. Lett., 41(2), 111–116. doi: View Article

 

Opt. Soc. Am.

  • Gokhberg, K., Vorobeichik, I., Narevicius, E., &Moiseyev, N, (2004). Solution of the vector wave equation by the separable effective adiabatic basis set method.  Opt. Soc. Am. B-Opt. Phys., 21(10), 1809–1817. doi: View Article

 

  • Vorobeichik, I.,Moiseyev, N, & Neuhauser, D. (1997). Effect of the second-derivative paraxial term in the scalar maxwell’s equation on amplitude losses and reflections in optical fibers.  Opt. Soc. Am. B-Opt. Phys., 14(5), 1207–1212. doi:10.1364/JOSAB.14.001207

 

  • Vorobeichik, I., Peskin, U., & Moiseyev, N, (1995). Modal losses and design of modal irradiance patterns in an optical-fiber by the complex scaled (t,t’) method.  Opt. Soc. Am.

 

 

Mol. Phys.

  • Landau, A., Haritan, I., Kapralova-zdanska, P. R., &Moiseyev, N, (2015). Advantages of complex scaling only the most diffuse basis functions in simultaneous description of both resonances and bound states.  Mol. Phys., 113(19-20, SI), 3141–3146. doi:View Article

 

  • Balanarayan, P., &Moiseyev, N, (2013). Chemistry in high-frequency strong laser fields: The story of hes molecule.  Mol. Phys., 111(12-13, SI), 1814–1822. doi: View Article

 

  • Goldzak, T., Gilary, I., & Moiseyev, N, (2012). Resonance energies, lifetimes and complex energy potential curves from standard wave-packet calculations.  Mol. Phys., 110(9-10, SI), 537–546. doi: View Article

 

  • Moiseyev, N, & Gupta, A. K. (2012). Distinguishing between aligned and randomly oriented polar molecules by using a combination of strong laser field with a weak static field. Mol. Phys., 110(15-16), 1721–1728. doi: View Article

 

  •  Engdahl, E., & Moiseyev, N, (1989). Perturbation analysis of gas-surface diffractive selective adsorption resonance states. Mol. Phys.66(2), 465–478.doi:View Article

 

  • Engdahl, E., & Moiseyev, N,, (1989). Perturbation analysis of gas-surface diffractive selective adsorption resonance states.  Mol. Phys., 66(2), 465–478.

 

  • Moiseyev, N, , Maniv, T., Elber, R., & Gerber, R. (1985). Lifetimes of rotational resonances in molecule surface scattering quantum versus classical results.  Mol. Phys., 55(6), 1369–1381. doi: View Article

 

  • Moiseyev, N, (1982). Resonance states by the generalized complex variational method.  Mol. Phys., 47(3), 585–598. doi: View Article

 

  • Moiseyev, N, (1981). Studies of multi-channel resonances by the complex scaling method.  Mol. Phys. , 42(1), 129–139. doi: View Article

 

  • Moiseyev, N, & Certain, P. (1979). Perturbation approach to the complex-rotation method.  Mol. Phys., 37(5), 1621–1632. doi: View Article

 

  • Moiseyev, N, Certain, P., & Weinhold, F. (1978b). Resonance properties of complex-rotated hamiltonians.  Mol. Phys., 36(6), 1613–1630. doi:

 

Z. Phys. D-Atoms Mol. Clusters

  • Moiseyev, N, , Korsch, H., & Mirbach, B. (1995). Classical and quantum chaos in molecular rotational excitation by ac electric fields. Z. Phys. D-Atoms Mol. Clusters29(2),  35, pages 247–256

 

  • Averbukh, V., Moiseyev, N,, Mirbach, B., & Korsch, H. (1995). Dynamical tunneling through a chaotic region. Z. Phys. D-Atoms Mol. Clusters35(4), 247–256. doi:View Article

J. Phys. D: Applied Physics

  • Guy Elbaz, Adi Pick, N. Moiseyev and Gal Shmuel. Encircling exceptional points of Bloch waves: mode conversion and anomalous scattering. J. Phys. D: Appl. Phys. 55 235301 (2022); View Article

 

Chemistry Publications List (by Journals)

J. Chem. Phys. (JCP)

  • Gal Bouskila, Arie Landau, Idan Haritan, N. Moiseyev, Debarati Bhattachary (2022). Complex energies and transition dipoles for shape-type resonances of uracil anion from stabilization curves via Padé. J. Chem. Phys. 156, 194101 (2022); View Article

 

  • Landau, A., Ben-asher, A., Gokhberg, K., Cederbaum, L. S., & Moiseyev, N, (2020). Ab initio complex potential energy curves of the he-*(1s2p p-1)-li dimer.  J. Chem. Phys., 152(18). doi: View Article

 

  • Pick, A., Kapralova-zd’anska, P. R., & Moiseyev, N, (2019). Ab-initio theory of photoionization via resonances.  J. Chem. Phys., 150 (20). doi: View Article

 

  • Ben-asher, A., & Moiseyev, N, (2017). The boomerang effect in electron-hydrogen molecule scattering as determined by time-dependent calculations.  J. Chem. Phys., 146(20). doi: View Article

 

  • Haritan, I., & Moiseyev, N, (2017). On the calculation of resonances by analytic continuation of eigenvalues from the stabilization graph.  J. Chem. Phys., 147(1). doi: View Article

 

  • Martiskainen, H., & Moiseyev, N, (2017). Adiabatic perturbation theory for atoms and molecules in the low-frequency regime.  J. Chem. Phys., 147(22). doi: View Article

 

  • Moiseyev, N, (2017). Forces on nuclei moving on autoionizing molecular potential energy surfaces.  J. Chem. Phys., 146(2). doi: View Article

 

  • Landau, A., & Moiseyev, N, (2016). Molecular resonances by removing complex absorbing potentials via pade; application to co- and n-2(-).  J. Chem. Phys., 145(16). doi: View Article

 

  • Haritan, I., Gilary, I., Amitay, Z., & Moiseyev, N, (2015). Characteristic footprints of an exceptional point in the dynamics of li dimer under a laser field.  J. Chem. Phys., 143(15). doi: View Article

 

  • Pawlak, M., Shagam, Y., Narevicius, E., &  Moiseyev, N, (2015). Adiabatic theory for anisotropic cold molecule collisions.  J. Chem. Phys., 143(7). doi: View Article

 

  • Kapralova-zdanska, P. R., & Moiseyev, N, (2014). Helium in chirped laser fields as a time-asymmetric atomic switch.  J. Chem. Phys., 141(1). doi: View Article

 

  • Sajeev, Y., & Moiseyev, N, (2007). Reflection-free complex absorbing potential for electronic structure calculations: Feshbach-type autoionization resonances of molecules.  J. Chem. Phys., 127(3). doi: View Article

 

  • Scheit, S., Meyer, H., Moiseyev, N, & Cederbaum, L. (2006). On the unphysical impact of complex absorbing potentials on the hamiltonian and its remedy.  J. Chem. Phys., 124(3). doi:  View Article

 

  • Wei, Q., Kais, S., & Moiseyev, N  (2006). New stable multiply charged negative atomic ions in linearly polarized superintense laser fields.  J. Chem. Phys., 124(20). doi: View Article

 

  • Emmanouilidou, a., & Moiseyev, N, (2005). Stark and field-born resonances of an open square well in a static external electric field.  J. Chem. Phys., 122(19). doi: View Article

 

  • Zdanska, P., & Moiseyev, N, (2005). Hartree-fock orbitals for complex-scaled configuration interaction calculation of highly excited feshbach resonances.  J. Chem. Phys., 123(19). doi: View Article

 

  • Moiseyev, N. Scheit, S., & Cederbaum, L. (2004). Non-hermitian quantum mechanics: Wave packet propagation on autoionizing potential energy surfaces.  J. Chem. Phys., 121(2), 722–725. doi: View Article

 

  • Narevicius, E., Moiseyev, N  , Sadeghpour, H., & Cederbaum, L. (2004). Extremely narrow peaks in predissociation of sodium dimer due to rovibronic coupling.  J. Chem. Phys., 121(8), 3527–3532. doi: View Article

 

  • Scheit, S., Averbukh, V., Meyer, H., Moiseyev, N, Santra, R., Sommerfeld, T., … Cederbaum, L. (2004). On the interatomic coulombic decay in the ne dimer.  J. Chem. Phys., 121(17), 8393–8398. doi: View Article

 

  • Zdanska, P., & Moiseyev, N, (2004). Complex autocorrelation function and energy spectrum by classical trajectory calculations.  J. Chem. Phys., 121(13), 6175–6185. doi: View Article

 

  • Zdanska, P., Averbukh, V., &  Moiseyev, N, (2003). High harmonic generation spectra of aligned benzene in circular polarized laser field.  J. Chem. Phys., 118(19), 8726–8738. doi: View Article

 

  • Moiseyev, N , Santra, R., Zobeley, J., & Cederbaum, L. (2001). Fingerprints of the nodal structure of autoionizing vibrational wave functions in clusters: Interatomic coulombic decay in ne dimer.  J. Chem. Phys., 114(17), 7351–7360. doi: View Article

 

  •  Zdanska, P., & Moiseyev, N, (2001). Phases and amplitudes of recurrences in autocorrelation function by a simple classical trajectory method.  J. Chem. Phys., 115(23), 10608–10620

 

  • Narevicius, E., & Moiseyev, N, (2000a). Non-hermitian formulation of interference effect in scattering experiments.  J. Chem. Phys., 113(15), 6088–6095. doi: View Article

 

  • Friedman, R., Ryaboy, V., & Moiseyev, N, (1999). Scattering matrix determination by asymptotic analysis of complex scaled resonance wave functions: Model cl+h-2 nonadiabatic dynamics.  J. Chem. Phys., 111(16), 7187–7196. doi: View Article

 

  • Pang, J., Neuhauser, D., & Moiseyev, N, (1997). Photoabsorption probability for a system governed by a time-dependent hamiltonian through the (t, t’) formalism.  J. Chem. Phys.,106, 6839 (1997). doi: View Article

 

  • Mandelshtam, V., & Moiseyev, N, (1996). Complex scaling of ab initio molecular potential surfaces.  Chem. Phys., 104(16), 6192–6195. doi: View Article

 

  • Leforestier, C., Yamashita, K., & Moiseyev, N, (1995). Transition state resonances by complex scaling: A three-dimensional study of ClHCl.  J. Chem. Phys., 103(19), 8468–8476. doi: View Article

 

  • Moiseyev, N, (1995). Cumulative reaction probability from time-independent scattering-theory.  J. Chem. Phys., 103(8), 2970–2973. doi: View Article

 

  • Ryaboy, V., & Moiseyev, N, (1995). Three-dimensional study of predissociation resonances by the complex scaled discrete variable representation method: HCO/DCO.  J. Chem. Phys. View Article

 

  •  Lipkin, N., Gerber, R., Moiseyev, N & Nathanson, G. (1994). Atom scattering studies of liquid structure and dynamics: Collisions of Xe with a model of squalane. J. Chem. Phys.100(11), 8408–8417. doi: View Article

 

  • Ryaboy, V., Moiseyev, N , Mandelshtam, V., & Taylor, H. (1994). Resonance positions and widths by complex scaling and modified stabilization methods: Van der Waals complex NeICl. J. Chem. Phys. 101(7), 5677–5682. doi: View Article

 

  • Moiseyev, N, (1994). The solution of the time-dependent schrodinger-equation by the (t,t’) method – complex scaled multiphoton ionization dissociation resonance wave-functions are square integrable.  J. Chem. Phys., 101(11), 9716–9718. doi: View Article

 

  • Peskin, U., Alon, O., & Moiseyev, N, (1994). The solution of the time-dependent schrodinger-equation by the (t,t’) method – multiphoton ionization/dissociation probabilities in different gauges of the electromagnetic potentials.  J. Chem. Phys., 100(10), 7310–7318. doi: View Article

 

  • Peskin, U., Kosloff, R., & Moiseyev, N, (1994). The solution of the time-dependent schrodinger-equation by the (t,t’)-method – the use of global polynomial propagators for time-dependent hamiltonians.  J. Chem. Phys., 100(12), 8849–8855. doi:View Article

 

  • Ryaboy, V., Moiseyev, N  , Mandelshtam, V., & Taylor, H. (1994). Resonance positions and widths by complex scaling and modified stabilization methods: Van der Waals complex. NeICl.  J. Chem. Phys., 101(7), 5677–5682. doi: View Article

 

  • Bental, N., Moiseyev, N , & Kosloff, R. (1993). Creation of discrete quasi-energy resonance states in strong electromagnetic-fields.  J. Chem. Phys., 98(12), 9610–9617.  View Article

 

  • Peskin, U., & Moiseyev, N, (1993). The solution of the time-dependent schrodinger-equation by the (t,t’) method – theory, computational algorithm and applications.  J. Chem. Phys., 99(6), 4590–4596. doi: View Article

 

  • Rom, N., & Moiseyev, N, (1993). Absorbing boundary conditions by the partial integration exterior scaling method. J. Chem. Phys., 99(10), 7703–7708. doi: View Article

 

  • Rom, N., Ryaboy, V., & Moiseyev N. (1993). Cumulative reaction probability by the complex coordinate scattering-theory.  J. Chem. Phys. 98, 6327 (1993);View Article

 

  • Ryaboy, V., Lefebvre, R., & Moiseyev, N, (1993). Cumulative reaction probabilities using Pade analytical continuation procedures.  J. Chem. Phys., 99(5), 3509–3515. doi:View Article

 

  • Ryaboy, V., & Moiseyev, N, (1993). Cumulative reaction probability from Siegert eigenvalues – model studies.  J. Chem. Phys., 98(12), 9618–9623. doi:View Article

 

  • Peskin, U., & Moiseyev(1992). The complex coordinate scattering theory and the Kohn variational method: A general formulation and application to long range potentials. J. Chem. Phys.97(9), 6443–6450. doi: View Article

 

  • Peskin, U., & Moiseyev, N, (1992). Gas/surface complex coordinate scattering theory: HD/ag(111), HD/pt(111) rotationally inelastic transition intensities.  J. Chem. Phys., 96(3), 2347–2355. doi: View Article

 

  • Peskin, U., & Moiseyev, N. (1992). The complex coordinate scattering theory: Broken inversion symmetry of corrugated surfaces in Helium diffraction from Cu(115). J. Chem. Phys. 97(4), 2804–2808. doi: View Article

 

  •  Rom, N., MoiseyevN, & Lefebvre, R. (1992). Thermal rate constants in collinear atom transfer-reactions by optimizing the position of the reactants products dividing surface. J. Chem. Phys.96(11), 8307–8313. doi: View Article

 

  • Bental, N., Moiseyev N. & Leforestier, C., & Kosloff, R. (1991). Positions, lifetimes, and partial widths of metastable quasi-energy states by solving the time-dependent complex-scaled schrodinger-equation.  J. Chem. Phys., 94(11), 7311–7318. doi: View Article

 

  • Engdahl, E., Maniv, T., & Moiseyev N. (1991). Gas-surface scattering cross-section by the complex coordinate method.  J. Chem. Phys., 94(9), 6330. doi:View Article

 

  • Engdahl, E., Moiseyev N. , & Maniv, T. (1991). A theory of he diffraction and resonance scattering from cu(115) by the complex coordinate method.  J. Chem. Phys., 94(2), 1636–1642. doi: View Article

 

  • Rom, N.,  Moiseyev, N, & Lefebvre, R. (1991). Tunneling rates in a 2-dimensional symmetrical double-well potential surface by the exterior scaling procedure. J. Chem. Phys.95(5), 3562–3569. doi: View Article

 

  • Lefebvre, R., & Moiseyev, N, (1990). Artificial resonance procedure for the determination of quantum mechanical rate constants in the tunneling regime. J. Chem. Phys. 93, 7173 (1990); View Article

 

  • Lipkin, N., Moiseyev, N. , & Leforestier, C. (1990). Resonance positions and widths by a similarity transformation of a Hermitian Hamiltonian matrix.  J. Chem. Phys., 92(1),

 

  • Peskin, U., Moiseyev, N , & Lefebvre, R. (1990). Partial widths by asymptotic analysis of the complex scaled resonance wave-function.  J. Chem. Phys., 92(5), 2902–2909. doi:View Article

 

  • Rom, N., Engdahl, E., & Moiseyev, N. (1990). Tunneling rates in bound systems using smooth exterior complex scaling within the framework of the finite basis set approximation. J. Chem. Phys. 93, 3413 ; View Article

 

  • Moiseyev, N, Lipkin, N., Farrelly, D., Atabek, O., & Lefebvre, R. (1989). Determination of tunneling rates in bound systems using the complex coordinate method.  J. Chem. Phys.91(10), 6246–6253. doi:View Article

 

  • Benephraim, a., Folman, M., Heidberg, J., & Moiseyev, N (1988). Predesorption of CO from the sodium chloride (100) surface: Study by the complex coordinate method.  J. Chem. Phys., 89(6), 3840–3846. doi: View Article

 

  • Engdahl, E., Maniv, T., & Moiseyev, N (1988). Complex quasiprobability for atoms trapped on surfaces: A novel application of the complex coordinate method.  J. Chem. Phys., 88(9), 5864–5870. doi: View Article

 

  • Kolin, O., Leforestier, C., & Moiseyev, N (1988). Resonance transition-probabilities by the complex Lanczos recursion method.  J. Chem. Phys., 89(11), 6836–6840. doi: View Article

 

  • Moiseyev, N, & Hirschfelder, J. (1988). Representation of several complex coordinate methods by similarity transformation operators.  J. Chem. Phys., 88(2), 1063–1065. doi: View Article

 

  • Certain, P., & Moiseyev, N (1987). Highly excited vibrational-states by adiabatic vs self-consistent-field methods.  J. Chem. Phys., 86(4), 2146–2151. doi: View Article

 

  • Maniv, T., Engdahl, E., & Moiseyev, N (1987). Application of the complex rotation method to the study of resonance states of atoms at a corrugated surface.  J. Chem. Phys., 86(2), 1048–1054. doi: View Article

 

  • Chang, J., Moiseyev, N ,& Wyatt, R. (1986). Stable highly excited vibrational eigenvalues without the variational principle.  J. Chem. Phys., 84(9), 4997–5006. doi:View Article

 

  • Engdahl, E., & Moiseyev, N (1986). Resonances by the complex coordinate method with Hermitian hamiltonian .4. the linear correlation procedure.  J. Chem. Phys., 84(3), 1379–1384. doi: View Article

 

  • Froelich, P., Goscinski, O., & Moiseyev N. (1986). Resonances from the complex dilated hamiltonians in a dilation-adapted basis set with a new stabilization parameter.  J. Chem. Phys., 84(7), 3931–3936. doi:View Article

 

  • Moiseyev N., Friesner, R., & Wyatt, R. (1986). Natural expansion of vibrational wave functions: RRGM with residue algebra.  J. Chem. Phys., 85(1), 331–336. doi:View Article

 

  • Froelich, P., & Moiseyev N., (1984). Resonances by the complex coordinate method with Hermitian hamiltonian .3. autoionization.  J. Chem. Phys., 81(3), 1352–1354. doi: View Article

 

  • Moiseyev N. ,& Baradon, R. (1984). Vibrational predissociation resonances for a model h–c–c→h+c=c hamiltonian by the complex coordinate method.  J. Chem. Phys., 80(5), 1917–1921. doi: View Article

 

  • Moiseyev, N, Froelich, P., & Watkins, E. (1984). Resonances by the complex coordinate method with Hermitian hamiltonian .2. error-estimates.  J. Chem. Phys., 80(8), 3623–3628. doi: View Article

 

  • Katriel, J., & Moiseyev, N  (1983). Approximate and exact treatments of second-harmonic generation: Regular vs “stochastic” behavior.  J. Chem. Phys., 78(2), 876–881. doi: View Article

 

  • Moiseyev, N& Peres, A. (1983). Motion of wave-packets in regular and chaotic systems.  J. Chem. Phys., 79(12), 5945–5950. doi: View Article

 

  • Moiseyev, N, Friedland, S., & Certain, P. (1981). Cusps, theta-trajectories, and the complex virial-theorem.  J. Chem. Phys., 74(8), 4739–4740. doi: View Article

 

Chem. Phys. Lett. (CPL)

 

  • Balanarayan, P., Sajeev, Y., & Moiseyev, N  (2012). Ab-initio complex molecular potential energy surfaces by the back-rotation transformation method.  Chem. Phys. Lett., 524, 84–89. doi: View Article

 

  • Caspary, M., & Moiseyev, N  (2006). Simultaneous propagation of different wavepackets driven by lasers.  Chem. Phys. Lett., 431(1-3), 169–173. doi: View Article

 

  • Moiseyev, N (2000). Comment on calculations of excited states by the density functional theory.  Chem. Phys. Lett., 321(5-6), 469–472. doi: View Article

 

  • Alacid, M., Leforestier, C., & Moiseyev, N  (1999). Bound and resonance states by a time-independent filter diagonalization method for large hamiltonian systems.  Chem. Phys. Lett., 305(3-4), 258–262. doi: View Article

 

  • Moiseyev, N, Gluck, M., & Korsch, H. (1999). Stark resonances in dc fields from short time propagation of the field-free hamiltonian. Chem. Phys. Lett., 303(1-2), 22–26. doi: View Article

 

  • Narevicius, E., & Moiseyev, N  (1998). Structured photo-absorption spectra of arhcl: Fingerprints of overlapping broad resonances.  Chem. Phys. Lett., 287(3-4), 250–254. doi: View Article

 

  • Zavin, R., Vorobeichik, I., & Moiseyev, N.  (1998). Motion of wave-packets using the smooth-exterior-scaling complex potential.  Chem. Phys. Lett., 288(2-4), 413–417. doi: View Article

 

  • Jungwirth, P., Schmidt, B., & Moiseyev, N  (1997). Vibrationally resolved spectra from short-time quantum molecular dynamics by the filter-diagonalization method.  Chem. Phys. Lett.280(3-4), 177–184. doi:View Article

 

  • Narevicius, E., Neuhauser, D., Korsch, H., & Moiseyev, N  (1997). Resonances from short time complex-scaled cross-correlation probability amplitudes by the filter-diagonalization method.  Chem. Phys. Lett.276(3-4), 250–254. doi:View Article

 

  • Vorobeichik, I., Moiseyev, N, & Miller, W. (1997). On the reflection probability in elastic scattering processes as obtained via the absorbing boundary conditions discrete variable representation (abc-dvr) green function formalism.  Chem. Phys. Lett., 275(5-6), 491–493. doi:View Article

 

  • Rom, N., Ryaboy, V., & Moiseyev, N  (1993). Thermal rate constants of multimode systems for the price of one – Aziridine.  Chem. Phys. Lett., 204(1-2), 175–182. doi: View Article

 

  • Lefebvre, R., & Moiseyev, N (1989). Complex eigenvalues in bound systems: A two-channel example. Chem. Phys. Lett., 163(4-5), 339–343. doi:View Article

 

  • Lipkin, N., Moiseyev, N & Katriel, J. (1988). Bound and resonance states for isochronous potentials.  Chem. Phys. Lett., 147(6), 603–607. doi:View Article

 

  • Milfeld, K., & Moiseyev N. (1986). Complex resonance eigenvalues by the Lanczos recursion method.  Chem. Phys. Lett., 130(1-2), 145–151. doi:View Article

 

  • Moiseyev N. , Brown, R., Wyatt, R., & Tzidoni, E. (1986). Analysis of chaotic eigenfunctions by the natural expansion method.  Chem. Phys. Lett., 127(1), 37–44. doi:View Article

 

  • Feingold, M., Moiseyev N.  & Peres, A. (1985). Classical limit of quantum chaos.  Chem. Phys. Lett., 117(4), 344–346. doi:View Article

 

  • Moiseyev N. (1985). Distribution of energy-level spacing for the self-consistent-field approximation of vibrational motion.  Chem. Phys. Lett., 119(5), 388–392. doi:View Article

 

  • Moiseyev N.  & Goscinski, O. (1985). Effective potentials and the Gelfand-Levitan equation.  Chem. Phys. Lett., 120(6), 520–523. doi:View Article

 

  • Moiseyev N., (1984a). On the new possibility of chemical bonding – anti-resonance phenomena. Chem. Phys. Lett., 106(4), 354–355. doi:View Article

 

  • Moiseyev, N, & Katriel, J. (1984). Spurious complex energies for confining potentials in the complex-coordinate method. Chem. Phys. Lett., 105(2), 194–196. doi:View Article

 

  • Moiseyev, N (1983). On the scf method for coupled-vibron systems.  Chem. Phys. Lett., 98(3), 233–238. doi: View Article

 

  • Moiseyev,  N. (1983c). Resonance by the complex coordinate method with Hermitean hamiltonian.  Chem. Phys. Lett., 99(4), 364–367. doi: View Article

 

  • Moiseyev, N& Certain, P. (1978). On the angular correlation of electrons in configuration interaction wavefunctions.  Chem. Phys. Lett., 55(3), 451–453. doi: View Article

 

  • Moiseyev, N, Kventsel, G., & Katriel, J. (1978). Non-non crossings in molecular potential-energy curves – comment.  Chem. Phys. Lett., 57(3), 477–478. doi: View Article

 

  • Moiseyev, N& Katriel, J. (1974). Continuity dilemma and Hartree-Fock instabilities.  Chem. Phys. Lett., 29(1), 69–72. doi: View Article

 

 

Chem. Phys.

 

  • Ben-asher, A., Narevicius, E., & Moiseyev, N (2018). The effect of large autoionization decay rates (resonance widths) on cold molecular cross-sections and the reflection phenomenon.  Phys., 515, 88–93. doi: View Article

 

  • Dreuw, A., Sommerfeld, T., Moiseyev, N, & Koeppel, H. (2017). Electrons and nuclei in motion: Correlation and dynamics in molecules.  Phys., 482(SI), 1–2. doi:View Article

 

  • Sindelka, M., & Moiseyev, N (2017). Derivation of the one electron orbital which is associated with the best separable function of a given many electron reference state.  Phys., 482(SI), 384–386. doi: View Article

 

  • Halasz, G. J., Vibok, A., Sindelka, M., Cederbaum, L. S., & Moiseyev, N  (2012). The effect of light-induced conical intersections on the alignment of diatomic molecules.  Phys., 399, 146–150. doi: View Article

 

  • Sajeev, Y., & Moiseyev, N  (2010). Enhancement of charge transition from donor to acceptor in organic and biochemical reactions by the intermediate-mode-assisted tunneling mechanism.  Phys., 370(1-3), 115–118. doi: View Article

 

  • Sajeev, Y., Vysotskiy, V., Cederbaum, L. S., & Moiseyev, N(2009). Continuum remover-complex absorbing potential: Efficient removal of the nonphysical stabilization points.  Phys., 131(21). doi: View Article

 

  • Sajeev, Y., Sindelka, M., & Moiseyev, N. (2008). Hund’s multiplicity rule: From atoms to quantum dots.  Phys., 128(6). doi:  View Article

 

  • Gupta, A., & Moiseyev, N (2007). Trapping of molecules by highly rotational excitations.  Phys., 338(2-3), 113–120. doi: View Article

 

  • Sajeev, Y., Sindelka, M., & Moiseyev, N  (2006). Reflection-free complex absorbing potential for electronic structure calculations: Feshbach type autoionization resonance of helium.  Phys., 329(1-3, SI), 307–312. doi:View Article

 

  • Althorpe, S., Kouri, D., Hoffman, D., & Moiseyev, N (1997). A time-independent wavepacket approach to the (t,t’)-method for treating time-dependent hamiltonian systems. Phys., 217(2-3), 289–296. doi: View Article

 

  • Alon, O., & Moiseyev, N  (1995). Broken dynamical symmetry condition to control a chemical reaction by the complex coordinate (t, t′) method.  Phys., 196(3), 499–510. doi: View Article

 

  • Rom, N., Lipkin, N., & Moiseyev, N (1991). Optical potentials by the complex coordinate method.  Phys., 151(2), 199–204. doi: View Article

 

  • Moiseyev, N& Katriel, J. (1975). Coupling of radial and angular-correlations in 2-electron atoms.  Phys., 10(1), 67–72. doi:  View Article

 

Phys. Chem. (JPC)

  • Pawlak, M., Shagam, Y., Klein, A., Narevicius, E., & Moiseyev, N  (2017). Adiabatic variational theory for cold atom-molecule collisions: Application to a metastable helium atom colliding with ortho- and para-hydrogen molecules.  Phys. Chem. A, 121(10), 2194–2198. doi: View Article

 

  • Landau, A., Haritan, I., Kapralova-zd’anska, P. R., & Moiseyev, N (2016). Atomic and molecular complex resonances from real eigenvalues using standard (hermitian) electronic structure calculations.  Phys. Chem. A, 120(19), 3098–3108. doi: View Article

 

  • Halasz, G. J., Sindelka, M., Moiseyev, N, Cederbaum, L. S., & Vibok, A. (2012). Light-induced conical intersections: Topological phase, wave packet dynamics, and molecular alignment.  Phys. Chem. A, 116(11), 2636–2643. doi: View Article

 

  • Moiseyev, N (2009). Feshbach resonances: The branching of quantum mechanics into hermitian and non-hermitian formalisms.  Phys. Chem. A, 113(26), 7660–7666. doi: View Article

 

  • Sindelka, M., & Moiseyev, N  (2006). Theory of diatomic molecules in an external electromagnetic field from first quantum mechanical principles.  Phys. Chem. A, 110(16), 5561–5571. doi: View Article

 

  • Moiseyev, , & Lein, M. (2003). Non-hermitian quantum mechanics for high-order harmonic generation spectra.  Phys. Chem. A, 107 (37), 7181–7188. doi: View Article

 

  • Friedman, R., Podzielinski, I., Cederbaum, L., Ryaboy, V., & Moiseyev, (2002). Vibronic resonances arising from conically intersecting electronic states.  Phys. Chem. A, 106(17), 4320–4335. doi: View Article

 

 

Phys. Chem. Lett.

  • Ben-asher, A., Landau, A., Cederbaum, L. S., & Moiseyev, N  (2020). Quantum effects dominating the interatomic coulombic decay of an extreme system.  Phys. Chem. Lett., 11(16), 6600–6605. doi: View Article

 

  • Bhattacharya, D., Landau, A., & Moiseyev, N  (2020). Ab initio complex transition dipoles between autoionizing resonance states from real stabilization graphs.  Phys. Chem. Lett., 11(14), 5601–5609. doi: View Article

 

  • Bhattacharya, D., Pawlak, M., Ben-asher, A., Landau, A., Haritan, I., Narevicius, E., & Moiseyev, N (2019). Quantum effects in cold molecular collisions from spatial polarization of electronic wave function.  Phys. Chem. Lett., 10(4), 855–863. doi: View Article

 

 

Chem. Theory Comput.

  • Ben-asher, A., Landau, A., & Moiseyev N., (2021). Uniform vs partial scaling within resonances via pade based on the similarities to other non-hermitian methods: Illustration for the beryllium 1s(2)2p3s state.  Chem. Theory Comput., 17(6), 3435–3444. doi: View Article

 

  • Pawlak, M., Zuchowski, P. S., Moiseyev, N & Jankowski, P. (2020). Evidence of nonrigidity effects in the description of low-energy anisotropic molecular collisions of hydrogen molecules with excited metastable helium atoms.  Chem. Theory Comput., 16(4), 2450–2459. doi: View Article

 

  • Pawlak, M., Ben-asher, A., & Moiseyev, N (2018). Simple closed-form expression for penning reaction rate coefficients for cold molecular collisions by non-hermitian time-independent adiabatic scattering theory.  Chem. Theory Comput., 14(1), 236–241. doi: View Article

 

  • Bhattacharya, D., Ben-asher, A., Haritan, I., Pawlak, M., Landau, A., & Moiseyev, N  (2017). Polyatomic ab initio complex potential energy surfaces: Illustration of ultracold collisions.  Chem. Theory Comput., 13(4), 1682–1690. doi: View Article

 

  • Ben-asher, A., & Moiseyev, N (2016). On the equivalence of different methods for calculating resonances: From complex gaussian basis set to reflection-free complex absorbing potentials via the smooth exterior scaling transformation.  Chem. Theory Comput., 12(6), 2542–2552. doi: View Article

 

 

Int.J. Quantum Chem.

 

  • Cherkes, I., Klaiman, S., & Moiseyev, N  (2009). Spanning the hilbert space with an even tempered gaussian basis set. Int. J. Quantum Chem., 109(13), 2996–3002. doi: View Article

 

  • Fleischer, a., Gupta, A., & Moiseyev, N  (2005). Dynamical symmetry analysis of ionization and harmonic generation of atoms in bichromatic laser pulses. Int. J. Quantum Chem., 103(6), 824–840. doi: View Article

 

  • Moiseyev, N. (1997). Localization of multiphoton ionization/dissociation resonance wave functions in ac fields. Int. J. Quantum Chem., 63(1), 279–285 doi: View Article

 

  • Lefebvre, R., Moiseyev, N & Ryaboy, V. (1994). Thermal-reaction rates with a 2-point flux-flux correlation-function.  Int. J. Quantum Chem., 51(6), 465–472.

 

  • Peskin, U., & Moiseyev, N (1993). The complex coordinate scattering-theory and its application to the study of the surface asymmetry effect in Helium diffraction from Copper. Int. J. Quantum Chem., 46(3), 343–363. doi:View Article

 

  • Moiseyev, N(1981). Study of predissociation resonances by the complex coordinate method. Int. J. Quantum Chem., 20(4), 835–842. doi: View Article

 

  • Moiseyev, N, & Weinhold, F. (1980). Criteria of accuracy of resonance eigenvalues.  Int. J. Quantum Chem., 17(6), 1201–1211. doi: View Article

 

  • Moiseyev, , Certain, P., & Weinhold, F. (1978). Complex-coordinate studies of Helium autoionizing resonances.  Int. J. Quantum Chem., 14(6), 727–736. doi: View Article

 

  • Moiseyev, N& Katriel, J. (1976). Stability, continuity, and symmetry of variational wave-functions. Int. J. Quantum Chem., 10(6), 1011–1023. doi: View Article

 

J. Am. Chem. Soc.

 

  • Moiseyev, N.,Rucker, J., & Glickman, M. (1997). Reduction of ferric iron could drive hydrogen tunneling in lipoxygenase catalysis: Implications for enzymatic and chemical mechanisms.  J. Am. Chem. Soc., 119(17), 3853–3860. doi:View Article

 

  • Lefebvre, R., & Moiseyev, N (1990b). Automerization of cyclobutadiene. J. Am. Chem. Soc.112(13), 5052–5054. doi:View Article

 

Theor. Chim. Acta

  • Lipkin, N., Moiseyev, N, & Certain, P. (1992). Resonances of triatomic vanderwaals molecules by the complex discrete variable representation.  Theor. Chim. Acta, 82(1-2), View Article

 

  • Moiseyev, N, & Katriel, J. (1977). Generalized perturbation-theory – quality of 1st-order wave-function. Theor. Chim. Acta, 44(2), 201–213. doi: View Article

 

  • Moiseyev, N, Katriel, J., & Boyd, R. (1977). Fermi and Coulomb correlations in 2-1-s state of Helium isoelectronic sequence.  Theor. Chim. Acta, 45(1), 61–67. doi: View Article

 

  • Moiseyev, N& Katriel, J. (1976a). Gaussian potential – bound-states in continuum.  Theor. Chim. Acta, 41(4), 321–328. doi: View Article

full list of publications

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