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Лычковский Олег Валентинович
(публикации за последние годы)
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2021 |
1. |
А. В. Гамаюн, О. В. Лычковский, “Отображение между зависящими и не зависящими от времени многочастичными квантовыми гамильтонианами”, Математика квантовых технологий, Сборник статей, Труды МИАН, 313, МИАН, М., 2021 (в печати) |
2. |
Oleksandr Gamayun, Artur Slobodeniuk, Jean-Sébastien Caux, Oleg Lychkovskiy, “Nonequilibrium phase transition in transport through a driven quantum point contact”, Phys. Rev. B, 103 (2021), 41405 , 19 pp., arXiv: 2006.02400 ; |
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2020 |
3. |
N. Il'in, O. Lychkovskiy, “Quantum speed limits for adiabatic evolution, Loschmidt echo and beyond”, Internat. J. Theoret. Phys., 2020, 1–10 (Published online) , arXiv: 1805.04083 |
4. |
Oleksandr Gamayun, Oleg Lychkovskiy, Mikhail B. Zvonarev, “Zero temperature momentum distribution of an impurity in one-dimensional Fermi and Tonks–Girardeau gases”, SciPost Phys., 8 (2020), 53 , 37 pp. (cited: 1); |
5. |
Oleksandr Gamayun, Oleg Lychkovskiy, Jean-Sébastien Caux, “Fredholm determinants, full counting statistics and Loschmidt echo for domain wall profiles in one-dimensional free fermionic chains”, SciPost Phys., 8 (2020), 36 , 37 pp. (cited: 7); |
6. |
E. Shpagina, F. Uskov, N. Il'in, O. Lychkovskiy, “Merits of using density matrices instead of wave functions in the stationary Schrödinger equation for systems with symmetries”, J. Phys. A, 53 (2020), 75301 , 10 pp. ; |
7. |
Oleg Lychkovskiy, “A remark on the notion of independence of quantum integrals of motion in the thermodynamic limit”, J. Stat. Phys., 178 (2020), 1028–1038 ; |
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2019 |
8. |
F. Uskov, O. Lychkovskiy, “A variational lower bound on the ground state of a many-body system and the squaring parametrization of density matrices”, JPCS, 1163 (2019), 12057 , 9 pp., arXiv: 1902.09246 (cited: 1) |
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2018 |
9. |
N. Il'in, E. Shpagina, F. Uskov, O. Lychkovskiy, “Squaring parametrization of constrained and unconstrained sets of quantum states”, J. Phys. A, 51 (2018), 85301 , 19 pp., arXiv: 1704.03861 (cited: 5) (cited: 6) |
10. |
Oleg Lychkovskiy, Oleksandr Gamayun, Vadim Cheianov, “Quantum many-body adiabaticity, topological Thouless pump and driven impurity in a one-dimensional quantum fluid”, AIP Conf. Proc., AIP Conf. Proc., 1936, no. 1, 2018, 20024 , 6 pp., arXiv: 1711.05547 (cited: 6) |
11. |
Oleksandr Gamayun, Oleg Lychkovskiy, Evgeni Burovski, Matthew Malcomson, Vadim V. Cheianov, Mikhail B. Zvonarev, “Impact of the Injection Protocol on an Impurity’s Stationary State”, Phys. Rev. Lett., 120:22 (2018), 220605 , 6 pp. (cited: 15) |
12. |
Vera V. Vyborova, Oleg Lychkovskiy, Alexey N. Rubtsov, “Droplet formation in a one-dimensional system of attractive spinless fermions”, Phys. Rev. B, 98 (2018), 235407 (cited: 3) |
13. |
Oleg Lychkovskiy, Oleksandr Gamayun, Vadim Cheianov, “Necessary and sufficient condition for quantum adiabaticity in a driven one-dimensional impurity-fluid system”, Phys. Rev. B, 98 (2018), 024307 (cited: 6) |
14. |
Oleg Lychkovskiy, “A necessary condition for quantum adiabaticity applied to the adiabatic Grover search”, J. Russian Laser Research, 39:6 (2018), 552–557 (cited: 1) |
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2017 |
15. |
Oleg Lychkovskiy, Oleksandr Gamayun, Vadim Cheianov, “Time scale for adiabaticity breakdown in driven many-body systems and orthogonality catastrophe”, Phys. Rev. Lett., 119 (2017), 200401 , 6 pp., arXiv: 1611.00663 (cited: 14) |
16. |
Oleg Lychkovskiy, Decoherence at the level of eigenstates, 2017 , arXiv: 1712.04384 |
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2016 |
17. |
O. Lychkovskiy, “Large quantum superpositions of a nanoparticle immersed in superfluid helium”, Phys. Rev. B, 93 (2016), 214517 , 4 pp. |
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2015 |
18. |
O. Lychkovskiy, “Perpetual motion and driven dynamics of a mobile impurity in a quantum fluid”, Phys. Rev. A, 91 (2015), 040101 , 6 pp. (cited: 3) (cited: 14) |
19. |
O. Gamayun, O. Lychkovskiy, V. Cheianov, “Reply to ‘Comment on ’Kinetic theory for a mobile impurity in a degenerate Tonks-Girardeau gas’’”, Phys. Rev. E, 92 (2015), 016102 , 2 pp. (cited: 1) (cited: 4) |
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2014 |
20. |
O. Gamayun, O. Lychkovskiy, V. Cheianov, “Kinetic theory for a mobile impurity in a degenerate Tonks-Girardeau gas”, Phys. Rev. E, 90 (2014), 032132 , 12 pp. (cited: 13) (cited: 29) |
21. |
E. Burovski, V. Cheianov, O. Gamayun, O. Lychkovskiy, “Momentum relaxation of a mobile impurity in a one-dimensional quantum gas”, Phys. Rev. A, 89 (2014), 041601 , 5 pp. (cited: 13) (cited: 37) (cited: 37) |
22. |
O. Lychkovskiy, “Perpetual motion of a mobile impurity in a one-dimensional quantum gas”, Phys. Rev. A, 89 (2014), 033619 , 5 pp. (cited: 9) (cited: 17) |
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2013 |
23. |
E. Safonov, O. Lychkovskiy, “Spin dynamics in finite cyclic XY model”, Phys. Rev. A, 87 (2013), 042105 , 19 pp. (cited: 1) (cited: 3) (cited: 3) |
24. |
O. Lychkovskiy, “Dependence of decoherence-assisted classicality on the way a system is partitioned into subsystems”, Phys. Rev. A, 87 (2013), 022112 , 7 pp. (cited: 6) (cited: 16) |
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2012 |
25. |
B. Leggio, O. Lychkovskiy, A. Messina, “On the merit of a Central Limit Theorem-based approximation in statistical physics”, J. Stat. Phys., 146 (2012), 1274–1287 |
26. |
O. V. Lychkovskiy, M. I. Vysotsky, “$\mu\to e\gamma$ decay versus the $\mu\to eee$ bound and lepton flavor violating processes in supernova”, J. Exp. Theor. Phys., 114:3 (2012), 382–391 ; J. Exp. Theor. Phys., 114:3 (2012), 382–391 |
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2011 |
27. |
O. Lychkovskiy, “Entanglement and Relaxation in Exactly Solvable Models”, Optics and Spectroscopy, 111 (2011), 713–721 |
28. |
O. Lychkovskiy, “Entanglement, decoherence and thermal relaxation in exactly solvable models”, J. Phys. Conf. Ser., 306 (2011), 012028 , 7 pp. (cited: 2) (cited: 2) |
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2010 |
29. |
O. Lychkovskiy, “Necessary condition for the thermalization of a quantum system coupled to a quantum bath”, Phys. Rev. E, 82 (2010), 011123 , 9 pp. (cited: 15) (cited: 19) |
30. |
O. Lychkovskiy, S. Blinnikov, M. Vysotsky, “TeV-scale bileptons, see-saw type II and lepton flavor violation in core-collapse supernova”, Eur. Phys. J. C, 67 (2010), 213-237 (cited: 3) (cited: 5) |
31. |
O. Lychkovskiy and S. Blinnikov, “Spin flip of neutrinos with magnetic moment in core-collapse supernova”, Phys. of Atom. Nucl., 73 (2010), 614–624 (cited: 7) (cited: 10) |
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