dr hab. pl Nowości - Zaklad Optyki Atomowej, Atomic Optics Department
Zakład Optyki Atomowej


Najbliższe seminaria

30 XITitas Chanda (Jagiellonian University)
Self-organized topological insulator due to cavity-mediated correlated tunneling
Gdzie: MS Teams [ZOA-test], 12:15
Seminarium Zakładowe
Online: [link]
30 XIDiego Bussandri (National University of Cordoba, Argentina)
Generalized Holevo's Theorem
Gdzie: Zoom, [link], pass:commutator, 14:15
Chaos i Informacja Kwantowa
Pokaż pozostałe

[Abstrakt, pełna informacja]

Jakub Zakrzewski

Profesor
Quantum Simulations Group
Pokój: B-1-44
Telefon: 4555
www: [link]
email
ORCID: 0000-0003-0998-9460
Publons


Publikacje



2020
[1] T. Chanda, D. González-Cuadra, M. Lewenstein, L. Tagliacozzo, J. Zakrzewski
Devil's staircases of topological Peierls insulators and Peierls supersolids
ArXiv e-prints, 2011.09228 (2020).
[2] T. Chanda, R. Kraus, G. Morigi, J. Zakrzewski
Self-organized topological insulator via cavity-mediated correlated tunneling
ArXiv e-prints, 2011.01687 (2020).
[3] K. Suthar, R. Kraus, H. Sable, D. Angom, G. Morigi, J. Zakrzewski
Staggered superfluid phases of dipolar bosons in two-dimensional square lattices
ArXiv e-prints, 2008.00870 (2020).
[4] A. Woźniak, M. Lesiuk, D. Efimov, M. Mandrysz, J. Prauzner-Bechcicki, M. Ciappina, E. Pisanty, J. Zakrzewski, M. Lewenstein, R. Moszyński
A systematic construction of Gaussian basis sets for the description of laser field ionization and high-harmonic generation
ArXiv e-prints, 2007.10375 (2020).
[5] T. Chanda, P. Sierant, J. Zakrzewski
Many-body localization transition in large quantum spin chains: The mobility edge
ArXiv e-prints, 2006.02860 (2020).
[6] P. Sierant, M. Lewenstein, J. Zakrzewski
Polynomially filtered exact diagonalization approach to many-body localization
ArXiv e-prints, 2005.09534 (2020).
[7] T. Chanda, R. Yao, J. Zakrzewski
Coexistence of localized and extended phases: Many-body localization in a harmonic trap
ArXiv e-prints, 2004.00954 (2020).
[8] M. Łącki, J. Zakrzewski, N. Goldman
A dark state of Chern bands: Designing flat bands with higher Chern number
ArXiv e-prints, 2002.05089 (2020).
[9] T. Chanda, J. Zakrzewski, M. Lewenstein, L. Tagliacozzo
Confinement and Lack of Thermalization after Quenches in the Bosonic Schwinger Model
Phys. Rev. Lett. 124,180602 (2020).
[arxiv]
[10] P. Sierant, D. Delande, J. Zakrzewski
Thouless Time Analysis of Anderson and Many-Body Localization Transitions
Phys. Rev. Lett. 124,186601 (2020).
[arxiv]
[11] P. Sierant, J. Zakrzewski
Model of level statistics for disordered interacting quantum many-body systems
Phys. Rev. B 101,104201 (2020).
[arxiv]
[12] T. Chanda, P. Sierant, J. Zakrzewski
Time dynamics with matrix product states: Many-body localization transition of large systems revisited
Phys. Rev. B 101,035148 (2020).
[arxiv]
[13] K. Suthar, P. Sierant, J. Zakrzewski
Many-body localization with synthetic gauge fields in disordered Hubbard chains
Phys. Rev. B 101,134203 (2020).
[arxiv]
[14] R. Kraus, K. Biedroń, J. Zakrzewski, G. Morigi
Superfluid phases induced by dipolar interactions
Phys. Rev. B 101,174505 (2020).
[arxiv]
[15] M. Bañuls, R. Blatt, J. Catani, A. Celi, J. Cirac, M. Dalmonte, L. Fallani, K. Jansen, M. Lewenstein et al.
Simulating lattice gauge theories within quantum technologies
European Physical Journal D 74,165 (2020).
[arxiv]
[16] R. Yao, J. Zakrzewski
Many-body localization in the Bose-Hubbard model: Evidence for mobility edge
Physical Review B 102,014310 (2020).
[arxiv]
[17] J. Janarek, D. Delande, N. Cherroret, J. Zakrzewski
Quantum boomerang effect for interacting particles
Physical Review A 102,013303 (2020).
[arxiv]
[18] D. Efimov, J. Prauzner-Bechcicki, J. Zakrzewski, J. Zakrzewski
Strong-field ionization of atoms with p3 valence shell: Two versus three active electrons
Physical Review A 101,063402 (2020).
[arxiv]
[19] A. Maksymov, P. Sierant, J. Zakrzewski
Many-body localization in a one-dimensional optical lattice with speckle disorder
Physical Review B 102,10.1103/PhysRevB.102.134205 (2020).
[arxiv]


2019
[20] P. Sierant, J. Zakrzewski
Intermediate spectral statistics in the many--body localization transition
ArXiv e-prints, 1807.06983 (2019).
[21] P. Sierant, J. Zakrzewski
Level statistics across the many-body localization transition
Phys. Rev. B 99,104205 (2019).
[arxiv]
[22] K. Zegadlo, H. Nguyen, V. Konotop, J. Zakrzewski, M. Trippenbach
Route to chaos in a coupled microresonator system with gain and loss
Nonlinear Dynamics 97,559-569 (2019).
[arxiv]
[23] P. Sierant, A. Maksymov, M. Kuś, J. Zakrzewski
Fidelity susceptibility in Gaussian random ensembles
Phys. Rev. E 99,050102 (2019).
[arxiv]
[24] A. Maksymov, P. Sierant, J. Zakrzewski
Energy level dynamics across the many-body localization transition
Phys. Rev. B 99,224202 (2019).
[arxiv]
[25] D. Efimov, J. Prauzner-Bechcicki, J. Thiede, B. Eckhardt, J. Zakrzewski
Double ionization of a three-electron atom: Spin correlation effects
Phys. Rev. A 100,063408 (2019).
[arxiv]
[26] M. Mandrysz, M. Kübel, J. Zakrzewski, J. Prauzner-Bechcicki
Rescattering effects in streaking experiments of strong-field ionization
Phys. Rev. A 100,063410 (2019).
[arxiv]


2018
[27] M. Rams, P. Sierant, O. Dutta, P. Horodecki, J. Zakrzewski
At the Limits of Criticality-Based Quantum Metrology: Apparent Super-Heisenberg Scaling Revisited
Phys. Rev. X 8,021022 (2018).
[arxiv]
[28] J. Janarek, D. Delande, J. Zakrzewski
Discrete disorder models for many-body localization
Phys. Rev. B 97,155133 (2018).
[arxiv]
[29] K. Biedroń, M. Łącki, J. Zakrzewski
Extended Bose-Hubbard model with dipolar and contact interactions
Phys. Rev. B 97,245102 (2018).
[arxiv]
[30] J. Zakrzewski, D. Delande
Spin-charge separation and many-body localization
Phys. Rev. B 98,014203 (2018).
[arxiv]
[31] D. Efimov, A. Maksymov, J. Prauzner-Bechcicki, J. Thiede, B. Eckhardt, A. Chacón, M. Lewenstein, J. Zakrzewski
Restricted-space ab initio models for double ionization by strong laser pulses
Phys. Rev. A 98,013405 (2018).
[arxiv]
[32] J. Thiede, B. Eckhardt, D. Efimov, J. Prauzner-Bechcicki, J. Zakrzewski
Ab initio study of time-dependent dynamics in strong-field triple ionization
Phys. Rev. A 98,031401 (2018).
[arxiv]
[33] D. Wiater, J. Zakrzewski
Impact of geometry on many-body localization
Phys. Rev. B 98,094202 (2018).
[arxiv]
[34] J. Major, G. Morigi, J. Zakrzewski
Single-particle localization in dynamical potentials
Phys. Rev. A 98,053633 (2018).
[arxiv]


2017
[35] J. Major, M. Płodzień, O. Dutta, J. Zakrzewski
Synthetic random flux model in a periodically driven optical lattice
Phys. Rev. A 96,033620 (2017).
[arxiv]
[36] O. Dutta, L. Tagliacozzo, M. Lewenstein, J. Zakrzewski
Toolbox for Abelian lattice gauge theories with synthetic matter
Phys. Rev. A 95,053608 (2017).
[arxiv]
[37] P. Sierant, D. Delande, J. Zakrzewski
Many-body localization due to random interactions
Phys. Rev. A 95,021601 (2017).
[arxiv]
[38] T. Durić, K. Biedroń, J. Zakrzewski
Fibonacci anyon excitations of one-dimensional dipolar lattice bosons
Phys. Rev. B 95,085102 (2017).
[arxiv]
[39] D. Wiater, T. Sowiński, J. Zakrzewski
Two bosonic quantum walkers in one-dimensional optical lattices
Phys. Rev. A 96,043629 (2017).
[arxiv]
[40] P. Sierant, D. Delande, J. Zakrzewski
Many-body localization for randomly interacting bosons
Acta Phys. Polon. A 132,1707 (2017).
[arxiv]
[41] A. Syrwid, J. Zakrzewski, K. Sacha
Time Crystal Behavior of Excited Eigenstates
Phys. Rev. Lett. 119,250602 (2017).
[arxiv]


2016
[42] D. Suszalski, J. Zakrzewski
Different lattice geometries with a synthetic dimension
Phys. Rev. A 94,033602 (2016).
[arxiv]
[43] K. Biedroń, O. Dutta, J. Zakrzewski
Topological Rice-Mele model in an emergent lattice: Exact diagonalization approach
Phys. Rev. A 93,033631 (2016).
[arxiv]


2015
[44] O. Dutta, A. Przysiezna, J. Zakrzewski
Spontaneous magnetization and anomalous Hall effect in an emergent Dice lattice
Sci. Rep. 5,11060 (2015).
[arxiv]
[45] O. Dutta, A. Przysiezna, J. Zakrzewski
Rice-Mele model with topological solitons in an optical lattice
New J. Phys. 17,013018 (2015).
[arxiv]
[46] A. Kosior, J. Major, M. Płodzień, J. Zakrzewski
Controlling disorded with periodically modulated interactions
Phys. Rev. A 92,023606 (2015).
[arxiv]
[47] M. Łącki, D. Delande, J. Zakrzewski
Dynamics of heat and mass transport in a quantum insulator
Phys. Rev. B 91,134304 (2015).
[arxiv]
[48] A. Kosior, J. Major, M. Płodzień, J. Zakrzewski
Role of correlations and off-diagonal terms in binary disordered one dimensional systems
Acta Phys. Polon. A ,1002 (2015).
[arxiv]


2014
[49] O. Dutta, M. Lewenstein, J. Zakrzewski
Many body population trapping in ultracold dipolar gases
New J. Phys. 16,052002 (2014).
[arxiv]
[50] M. Łącki, B. Damski, J. Zakrzewski
Numerical studies of ground-state fidelity of the Bose-Hubbard model
Phys. Rev. A 89,033625 (2014).
[arxiv]
[51] J. Major, M. Łącki, J. Zakrzewski
Reexamination of the variational Bose-Hubbard model
Phys. Rev. A 89,043626 (2014).
[52] W. Ganczarek, M. Modugno, G. Pettini, J. Zakrzewski
Wannier functions for one-dimensional s-p optical superlattices
Phys. Rev. A 90,033621 (2014).
[arxiv]
[53] J. Stasińska, M. Łącki, O. Dutta, J. Zakrzewski, M. Lewenstein
Bose-Hubbard model with random impurities: Multiband and nonlinear hopping effects
Phys. Rev. A 90,063634 (2014).
[arxiv]


2013
[54] M. Łącki, D. Delande, J. Zakrzewski
Dynamics of cold bosons in optical lattices: effects of higher Bloch bands
New Journal of Physics 15,013062 (2013).
[arxiv]
[55] M. Łącki, J. Zakrzewski
Fast Dynamics for Atoms in Optical Lattices
Phys. Rev. Lett. 110,065301 (2013).
[arxiv]
[56] D. Delande, K. Sacha, M. Płodzień, S. Avazbaev, J. Zakrzewski
Many-body Anderson localization in one-dimensional systems
New Journal of Physics 15,045021 (2013).
[arxiv]
[57] M. Maik, P. Hauke, O. Dutta, J. Zakrzewski, M. Lewenstein
Density dependent tunneling in the extended Bose-Hubbard model
New Journal of Physics 15,113041 (2013).
[arxiv]
[58] T. Sowiński, M. Łącki, O. Dutta, J. Pietraszewicz, P. Sierant, M. Gajda, J. Zakrzewski, M. Lewenstein
Tunneling-Induced Restoration of the Degeneracy and the Time-Reversal Symmetry Breaking in Optical Lattices
Phys. Rev. Lett. 111,215302 (2013).
[arxiv]


2012
[59] M. Łącki, D. Delande, J. Zakrzewski
Numerical computation of dynamically important excited states of many-body systems
Phys. Rev. A 86,013602 (2012).
[arxiv]
[60] J. Pietraszewicz, T. Sowiński, M. Brewczyk, J. Zakrzewski, M. Lewenstein, M. Gajda
Two-component Bose-Hubbard model with higher-angular-momentum states
Phys. Rev. A 85,053638 (2012).
[arxiv]
[61] K. Sacha, K. Targońska, J. Zakrzewski
Frustration and time-reversal symmetry breaking for Fermi and Bose-Fermi systems
Phys. Rev. A 85,053613 (2012).
[arxiv]
[62] J. Zakrzewski
Crystals of Time
Physics 5,116 (2012).


2011
[63] T. Świsłocki, T. Sowiński, J. Pietraszewicz, M. Brewczyk, M. Lewenstein, J. Zakrzewski, M. Gajda
Tunable dipolar resonances and Einstein-de Haas effect in a Rb-87 atom condensate
Phys. Rev. A 83,063617 (2011).
[arxiv]
[64] M. Łącki, D. Delande, J. Zakrzewski
Extracting information from non adiabatic dynamics: excited symmetric states of the Bose-Hubbard model
Acta Physica Polonica A , (2011).
[arxiv]
[65] M. Łącki, S. Paganelli, V. Ahufinger, A. Sanpera, J. Zakrzewski
Disordered spinor Bose-Hubbard model
Phys. Rev. A 83,013605 (2011).
[arxiv]
[66] M. Maik, P. Buonsante, A. Vezzani, J. Zakrzewski
Dipolar bosons on an optical lattice ring
Phys. Rev. A 84,053615 (2011).
[arxiv]
[67] S. Paganelli, M. Łącki, V. Ahufinger, J. Zakrzewski, A. Sanpera
Spin effects in Bose-Glass phases
Journal of Low Temperature Physics 165,227--238 (2011).
[arxiv]


2009
[68] D. Delande, J. Zakrzewski
Compression as a Tool to Detect Bose Glass in a Cold Atomic Gas
Phys. Rev. Lett. 102,085301 (2009).
[69] K. Sacha, D. Delande, J. Zakrzewski
Quantum Bright Soliton in a Disorder Potential
Acta Physica Polonica A 116,772--778 (2009).
[70] K. Sacha, C. Müller, D. Delande, J. Zakrzewski
Anderson Localization of Solitons
Phys. Rev. Lett. 103,210402 (2009).
[71] J. Zakrzewski, D. Delande
Breakdown of adiabaticity when loading ultracold atoms in optical lattices
Phys. Rev. A 80,013602 (2009).
[arxiv]


2008
[72] B. Eckhardt, J. Prauzner-Bechcicki, K. Sacha, J. Zakrzewski
Suppression of correlated electron escape in double ionization in strong laser fields
Phys. Rev. A 77,015402 (2008).
[arxiv]
[73] J. Prauzner-Bechcicki, K. Sacha, B. Eckhardt, J. Zakrzewski
Quantum model for double ionization of atoms in strong laser fields
Phys. Rev. A 78,013419 (2008).
[arxiv]
[74] J. Zakrzewski, D. Delande
Accurate determination of the superfluid-insulator transition in the one-dimensional Bose-Hubbard model
AIP Conference Proceedings 1076, (2008).
[arxiv]
[75] B. Eckhardt, J. Prauzner-Bechcicki, K. Sacha, J. Zakrzewski
Momentum distributions after double ionization
Chaos 18,041110 (2008).


2007
[76] J. Prauzner-Bechcicki, K. Sacha, B. Eckhardt, J. Zakrzewski
Time-Resolved Quantum Dynamics of Double Ionization in Strong Laser Fields
Phys. Rev. Lett. 98,203002 (2007).
[77] J. Zakrzewski
Tight Binding Models in Cold Atoms Physics
Acta Physica Polonica B 38,1673 (2007).
[78] T. Schulte, S. Drenkelforth, J. Kruse, K. Sacha, J. Zakrzewski, M. Lewenstein, J. Arlt, W. Ertmer
Analysis of localization phenomena in weakly interacting disordered lattice gases
Proceedings of SPIE - The International Society for Optical Engineering 6483,648308 (2007).
[arxiv]
[79] J. Prauzner-Bechcicki, K. Sacha, B. Eckhardt, J. Zakrzewski
Nonsequential double ionization of atoms in strong laser pulses
Acta Physica Polonica A 112, (2007).


2006
[80] B. Damski, J. Zakrzewski
Mott-insulator phase of the one-dimensional Bose-Hubbard model: A high-order perturbative study
Phys. Rev. A 74,043609 (2006).
[arxiv]


2005
[81] J. Prauzner-Bechcicki, K. Sacha, B. Eckhardt, J. Zakrzewski
Nonsequential double ionization of molecules
Phys. Rev. A 71,033407 (2005).
[arxiv]
[82] T. Schulte, S. Drenkelforth, J. Kruse, W. Ertmer, J. Arlt, K. Sacha, J. Zakrzewski, M. Lewenstein
Routes Towards Anderson-Like Localization of Bose-Einstein Condensates in Disordered Optical Lattices
Phys. Rev. Lett. 95,170411 (2005).
[arxiv]
[83] J. Zakrzewski
Mean-field dynamics of the superfluid-insulator phase transition in a gas of ultracold atoms
Phys. Rev. A 71,043601 (2005).
[arxiv]
[84] A. Kubasiak, J. Korbicz, J. Zakrzewski, M. Lewenstein
Fermi-Dirac statistics and the number theory
Europhysics Letters 72, (2005).
[arxiv]


2004
[85] A. Sanpera, A. Kantian, L. Sanchez-Palencia, J. Zakrzewski, M. Lewenstein
Atomic Fermi-Bose mixtures in inhomogeneous and random lattices: From Fermi glass to quantum spin glass and quantum percolation
Physical Review Letters 93,040401 (2004).
[arxiv]


2003
[86] B. Damski, J. Zakrzewski, L. Santos, P. Zoller, M. Lewenstein
Atomic Bose and Anderson Glasses in Optical Lattices
Physical Review Letters 91, (2003).
[arxiv]
[87] D. Delande, J. Zakrzewski
Experimentally attainable example of chaotic tunneling: The hydrogen atom in parallel static electric and magnetic fields
Physical Review A - Atomic, Molecular, and Optical Physics 68, (2003).
[arxiv]


2002
[88] B. Damski, K. Sacha, J. Zakrzewski
Stirring a Bose-Einstein condensate
Journal of Physics B: Atomic, Molecular and Optical Physics 35, (2002).
[arxiv]
[89] B. Damski, K. Sacha, J. Zakrzewski
Collective excitation of trapped degenerate Fermi gases
Journal of Physics B: Atomic, Molecular and Optical Physics 35, (2002).
[arxiv]
[90] D. Delande, K. Sacha, J. Zakrzewski
Manipulating the shape of electronic non-dispersive wave-packets in the hydrogen atom: Numerical tests in realistic experimental conditions
Acta Physica Polonica B 33, (2002).
[arxiv]
[91] A. Buchleitner, D. Delande, J. Zakrzewski
Non-dispersive wave packets in periodically driven quantum systems
Physics Report 368, (2002).
[arxiv]
[92] Z. Karkuszewski, J. Zakrzewski, W. Zurek
Breakdown of correspondence in chaotic systems: Ehrenfest versus localization times
Physical Review A. Atomic, Molecular, and Optical Physics 65,042113 (2002).
[arxiv]


2001
[93] P. Pakoński, J. Zakrzewski
Kepler map for H atom driven by microwaves with arbitrary polarization
Acta Physica Polonica B 32, (2001).
[arxiv]
[94] K. Sacha, J. Zakrzewski
Driven Rydberg atoms reveal quartic level repulsion
Physical Review Letters 86, (2001).
[arxiv]
[95] Z. Karkuszewski, K. Sacha, J. Zakrzewski
Method for collective excitation of a Bose-Einstein condensate
Physical Review A - Atomic, Molecular, and Optical Physics 63, (2001).
[arxiv]


2000
[96] K. Sacha, J. Zakrzewski, D. Delande
Breaking Time Reversal Symmetry in Chaotic Driven Rydberg Atoms
Annals of Physics 283, (2000).
[arxiv]
[97] K. Sacha, J. Zakrzewski, D. Delande
Erratum: Chaotic Rydberg Atoms with Broken Time-Reversal Symmetry(Phys. Rev. Lett. 83, 2922 (1999))
Physical Review Letters 84, (2000).


1999
[98] P. Šeba, K. Zyczkowski, J. Zakrzewski
On the 'nonuniversal' conductance of an almost ideal quantum wire
Acta Physica Polonica B 30, (1999).
[99] K. Sacha, J. Zakrzewski
Resonant dynamics of the H atom in an elliptically polarized microwave field
Physical Review A - Atomic, Molecular, and Optical Physics 59, (1999).
[arxiv]
[100] K. Sacha, J. Zakrzewski, D. Delande
Chaotic rydberg atoms with broken time-reversal symmetry
Physical Review Letters 83, (1999).
[arxiv]
[101] A. Buchleitner, K. Sacha, D. Delande, J. Zakrzewski
Quasiclassical dynamics of resonantly driven Rydberg states
European Physical Journal D 5, (1999).


1998
[102] A. Buchleitner, I. Guarneri, J. Zakrzewski
Conductance fluctuations in microwave-driven Rydberg atoms
Europhysics Letters 44, (1998).
[103] K. Sacha, J. Zakrzewski
H-atom ionization by elliptically polarized microwave fields: Three-dimensional analysis
Physical Review A - Atomic, Molecular, and Optical Physics 58, (1998).
[104] D. Delande, J. Zakrzewski
Spontaneous emission of nondispersive Rydberg wave packets
Physical Review A - Atomic, Molecular, and Optical Physics 58, (1998).
[arxiv]
[105] K. Sacha, J. Zakrzewski
H atom in elliptically polarized microwaves: Semiclassical versus quantum resonant dynamics
Physical Review A - Atomic, Molecular, and Optical Physics 58, (1998).
[arxiv]
[106] K. Sacha, J. Zakrzewski, D. Delande
Controlling nonspreading wavepackets
European Physical Journal D 1, (1998).
[107] J. Zakrzewski, D. Delande, A. Buchleitner
Chaos assisted tunneling and nonspreading wave packets
Acta Physica Polonica A 93, (1998).
[108] J. Zakrzewski, D. Delande, A. Buchleitner
Ionization via chaos assisted tunneling
Physical Review E - Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics 57, (1998).
[arxiv]
[109] R. Gȩbarowski, P. Šeba, K. Zyczkowski, J. Zakrzewski
Quantum scattering in the strip: From ballistic to localized regimes
European Physical Journal B 6, (1998).
[arxiv]


1997
[110] J. Zakrzewski, D. Delande
How to build experimentally a non-spreading wavepacket
Journal of Physics B: Atomic, Molecular and Optical Physics 30, (1997).
[111] R. Gȩbarowski, J. Zakrzewski
Power-law decay in the ionization of H rydberg atoms
Open Systems and Information Dynamics 4, (1997).
[112] K. Sacha, J. Zakrzewski
H-atom ionization by elliptically polarized microwave fields: The overlap criterion
Physical Review A - Atomic, Molecular, and Optical Physics 56, (1997).
[113] K. Sacha, J. Zakrzewski
Resonance overlap criterion for H atom ionization by circularly polarized microwave fields
Physical Review A - Atomic, Molecular, and Optical Physics 55, (1997).
[114] D. Delande, J. Zakrzewski, A. Buchleitner
Comment on “new states of hydrogen in a circularly polarized electromagnetic field”
Physical Review Letters 79, (1997).
[115] P. Kunstman, K. Z-dotyczkowski, J. Zakrzewski
Nonuniversality in level dynamics
Physical Review E - Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics 55, (1997).
[arxiv]
[116] J. Zakrzewski, A. Buchleitner, D. Delande
Nondispersive wave packets as solitonic solutions of level dynamics
Zeitschrift fur Physik B-Condensed Matter 103, (1997).


1996
[117] J. Zakrzewski, R. Gȩbarowski, D. Delande
Two-dimensional quantum hydrogen atom in circularly polarized microwaves: Global properties
Physical Review A - Atomic, Molecular, and Optical Physics 54, (1996).
[118] P. Šeba, K. Życzkowski, J. Zakrzewski
Statistical properties of random scattering matrices
Physical Review E - Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics 54, (1996).
[arxiv]


1995
[119] J. Zakrzewski, D. Delandc
Stabilization in circularly polarized light: Floquet- adiabatic versus exact treatment
Journal of Physics B: Atomic, Molecular and Optical Physics 28, (1995).
[120] D. Delande, J. Zakrzewski, A. Buchleitner
A wave packet can be a stationary state
EPL 32, (1995).
[121] K. Dupret, J. Zakrzewski, D. Delande
Resonances in the diamagnetic rydberg spectrum: Order and chaos
EPL 31, (1995).
[122] J. Zakrzewski
On 'Universal' correlations in disordered and chaotic systems
Zeitschrift für Physik B Condensed Matter 98, (1995).
[arxiv]
[123] A. Karawajczyk, J. Zakrzewski
Lasers without inversion in a Doppler-broadened medium
Physical Review A 51, (1995).
[124] R. Gebarowski, J. Zakrzewski
Ionization of hydrogen atoms by circularly polarized microwaves
Physical Review A 51, (1995).
[125] J. Zakrzewski, K. Dupret, D. Delande
Statistical properties of energy levels of chaotic systems: Wigner or non-Wigner?
Physical Review Letters 74, (1995).
[arxiv]
[126] J. Zakrzewski, D. Delande, A. Buchleitner
Nonspreading electronic wave packets and conductance fluctuations
Physical Review Letters 75, (1995).
[127] M. Wójcik, J. Zakrzewski, K. Rzazewski
Classical aspects of quantum localization in microwave ionization of H atoms
Physical Review A 52, (1995).
[128] I. Guarneri, K. Zyczkowski, J. Zakrzewski, L. Molinari, G. Casati
Parametric spectral correlations of disordered systems in the Fourier domain
Physical Review E 52, (1995).
[arxiv]
[129] A. Buchleitner, D. Delande, J. Zakrzewski, R. Mantegna, M. Arndt, H. Walther
Multiple time scales in the microwave ionization of Rydberg atoms
Physical Review Letters 75, (1995).


1994
[130] R. Marcinek, E. Pollak, J. Zakrzewski
Yang-Mills classical mechanics revisited
Physics Letters B 327, (1994).
[131] A. Karawajczyk, J. Zakrzewski
Semiclassical study of 'double-lambda' laser without inversion
Optics Communications 107, (1994).
[132] R. Gebarowski, J. Zakrzewski
Ionization of H Rydberg atoms by microwaves: Pulse-shape influence on the algebraic decay
Physical Review A 50, (1994).


1993
[133] J. Zakrzewski, D. Delande
Parametric motion of energy levels in quantum chaotic systems. I. Curvature distributions
Physical Review E 47, (1993).
[134] J. Zakrzewski, D. Delande, J. Gay, K. Rzaewski
Ionization of highly excited hydrogen atoms by a circularly polarized microwave field
Physical Review A 47, (1993).


1992
[135] D. Grobgeld, E. Pollak, J. Zakrzewski
A numerical method for locating stable periodic orbits in chaotic systems
Physica D: Nonlinear Phenomena 56, (1992).
[136] J. Zakrzewski
Theoretical explanation of the first experimentally observed laser without inversion in a two-level scheme
Physical Review A 46, (1992).
[137] J. Zakrzewski, M. Lewenstein
Theory of dressed-state lasers in the bad-cavity limit
Physical Review A 45, (1992).
[138] J. Zakrzewski, D. Segal, M. Lewenstein
Pulsed dressed-state lasers
Physical Review A 46, (1992).
[139] A. Karawajczyk, J. Zakrzewski, W. Gawlik
Dressed-atom model of lasing without inversion in the double-configuration
Physical Review A 45, (1992).


1991
[140] J. Zakrzewski, T. Dohnalik
Level crossing in a frequency-dependent photon reservoir
Journal of Modern Optics 38, (1991).
[141] J. Zakrzewski, M. Ku
Distributions of avoided crossings for quantum chaotic systems
Physical Review Letters 67, (1991).
[142] M. Kua, J. Zakrzewski, K. Zyczkowski
Quantum scars on a sphere
Physical Review A 43, (1991).
[143] J. Zakrzewski, M. Lewenstein, T. Mossberg
Theory of dressed-state lasers. II. Phase diffusion and squeezing
Physical Review A 44, (1991).
[144] J. Zakrzewski, M. Lewenstein, T. Mossberg
Theory of dressed-state lasers. III. Pump-depletion effects
Physical Review A 44, (1991).
[145] J. Zakrzewski, M. Lewenstein, T. Mossberg
Theory of dressed-state lasers. I. Effective Hamiltonians and stability properties
Physical Review A 44, (1991).


1990
[146] J. Zakrzewski, R. Marcinek
Adiabatic mechanism of wave-function localization in the globally chaotic system
Physical Review A 42, (1990).


1989
[147] J. Gomez Llorente, J. Zakrzewski, H. Taylor, K. Kulander
Spectra in the chaotic region: Methods for extracting dynamic information
The Journal of Chemical Physics 90, (1989).


1988
[148] K. Zyczkowski, J. Zakrzewski
Modulated kicks approximation in non-integrable classical and quantum systems
Journal of Physics A: Mathematical and General 21,002 (1988).
[149] S. Geltman, J. Zakrzewski
Multiple ionisation by intense laser pulses in the independent-electron model: Application to xenon
Journal of Physics B: Atomic, Molecular and Optical Physics 21,005 (1988).
[150] J. Zakrzewski, J. Gomez Llorente, H. Taylor
Stabilisation approach to the quasi-Landau spectrum of the magnetised hydrogen atom
Journal of Physics B: Atomic, Molecular and Optical 21,001 (1988).
[151] M. Lewenstein, J. Zakrzewski, T. Mossberg, J. Mostowski
Non-exponential spontaneous decay in cavities and waveguides
Journal of Physics B: Atomic, Molecular and Optical Physics 21,003 (1988).
[152] H. Taylor, J. Zakrzewski, S. Saini
A Model for motion in the chaotic regime: Classical and quantum viewpoints
Chemical Physics Letters 145, (1988).
[153] H. Taylor, J. Zakrzewski
Dynamic interpretation of atomic and molecular spectra in the chaotic regime
Physical Review A 38, (1988).
[154] S. Saini, J. Zakrzewski, H. Taylor
Semiclassical quantization via adiabatic switching. II. Choice of tori and initial conditions for multidimensional systems
Physical Review A 38, (1988).
[155] M. Lewenstein, J. Zakrzewski, T. Mossberg
Spontaneous emission of atoms coupled to frequency-dependent reservoirs
Physical Review A 38, (1988).
[156] J. Brunet, R. Wyatt, H. Taylor, J. Zakrzewski
Time evolution in a driven quantum system: Excitation through bands of states
Physical Review A 38, (1988).
[157] J. Gomez Llorente, J. Zakrzewski, H. Taylor, K. Kulander
Spectra in the chaotic region: A quantum analysis of the photodissociation of H3+
The Journal of Chemical Physics 89, (1988).


1987
[158] J. Zakrzewski, K. Zyczkowski
Simple model for strong-laser-field ionization
Physical Review A 36, (1987).


1986
[159] J. Zakrzewski
On the Geltman-Hartree model of multiple ionisation by intense laser pulses
Journal of Physics B: Atomic and Molecular Physics 19,004 (1986).
[160] J. Zakrzewski
The influence of the pulse shape and chirp on the multipeak spectra in near-resonant Raman scattering and in autoionisation
Journal of Physics B: Atomic and Molecular Physics 19,007 (1986).
[161] M. Lewenstein, J. Zakrzewski, K. Rzzewski
Theory of fluorescence spectra induced by short laser pulses
Journal of the Optical Society of America B: Optical Physics 3, (1986).


1985
[162] J. Zakrzewski, M. Lewenstein, R. Kuklinski
Soluble models of optical systems driven by exponential pulses
Journal of Physics B: Atomic and Molecular Physics 18,014 (1985).
[163] J. Zakrzewski
Electron spin polarisation in laser induced autoionisation
Optics Communications 53, (1985).
[164] J. Zakrzewski
Analytic solutions of the two-state problem for a class of chirped pulses
Physical Review A 32, (1985).
[165] M. Florjaczyk, K. Rzaewski, J. Zakrzewski
Resonance scattering of a short laser pulse on a two-level system: Time-dependent approach
Physical Review A 31, (1985).
[166] K. Rzaewski, J. Zakrzewski, M. Lewenstein, J. Haus
Strong-field autoionization by smooth laser pulses
Physical Review A 31, (1985).


1984
[167] J. Zakrzewski
Laser-induced autoionisation in the presence of additional atomic continua
Journal of Physics B: Atomic and Molecular Physics 17,012 (1984).
[168] J. Zakrzewski, K. Rzazewski, M. Lewenstein
Threshold effects in strong-field photodetachment monitored by spontaneous photo-relaxation
Journal of Physics B: Atomic and Molecular Physics 17,013 (1984).


1983
[169] J. Zakrzewski, T. Dohnalik
Forward scattering (polarisation spectroscopy) of resonance radiation in partially coherent fields
Journal of Physics B: Atomic and Molecular Physics 16,009 (1983).