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Статьи

1. B. Feigin, M. Jimbo, E. Mukhin, Combinatorics of vertex operators and deformed W-algebra of type D(2,1;α), Advances in Mathematics 403,108331 (2022); arXiv:2103.15247, WoS: 000793345300016, Scopus: 2-s2.0-85127366148, ADS: 2021arXiv210315247F.
2. S. Abenda, P.G. Grinevich, Edge vectors on plabic networks in the disk and amalgamation of totally non-negative Grassmannians, Advances in Mathematics 406, 108523 (2022); arXiv:1908.07437, WoS: 000826996500005, Scopus: 2-s2.0-8513251576, ADS: 2019arXiv190807437A.
3. A.Ya. Maltsev, S.P. Novikov, Open level lines of a superposition of periodic potentials on a plane, Annals of Physics, In Press, Corrected Proof, Available online 22 July 2022, art. 169039; arXiv:2206.04014, ADS: 2022arXiv220604014M.
4. E.S. Pikina, AR. Muratov, E.I. Kats, V.V. Lebedev, Long-range interactions between membrane inclusions: Electric field induced giant amplification of the pairwise potential, Annals of Physics, In Press, Corrected Proof, Available online 11 May 2022, art. 168916 (2022); arXiv:2203.13640, Scopus: 2-s2.0-85130506460, ADS: 2022arXiv220313640P.
5. G.E.Volovik, From elasticity tetrads to rectangular vielbein, Annals of Physics, In Press, Corrected Proof, available online 29 June 2022, 168998; arXiv:2205.15222, InSpire: 2089059, РИНЦ: 2022arXiv220515222V.
6. A.N. Doludenko , S.V. Fortova, I.V. Kolokolov, V.V. Lebedev, Coherent vortex versus chaotic state in two-dimensional turbulence, Annals of Physics, In Press, Journal Pre-proof, Available online 10 August 2022, art. 169072.
7. E.A. Kuznetsov, E.A. Mikhailov, Slipping flows and their breaking, Annals of Physics, In Press, Journal Pre-proof, Available online 19 August 2022, art. 169088; arXiv:2207.10621, ADS: 2022arXiv220710621K.
8. S.N. Vergeles, Domain wall between the Dirac sea and the 'anti-Dirac sea', Class. Quantum Grav. 39, 038001 (2022), WoS: 000745307500001, Scopus: 2-s2.0-85123897475, ADS: 2022CQGra..39c8001V, InSpire: 2017124, MathSciNet: 4382269.
9. S.N. Vergeles, Self-consistent equation for torsion arising as a consequence of the Dirac sea quantum fluctuations in external classical electromagnetic and gravitational fields, Class. Quantum Grav. 39, 155009 (2022); arXiv:2203.03625, Scopus: 2-s2.0-85135024830, ADS: 2022CQGra..39o5009V, InSpire: 2048013.
10. M. Bershtein, P. Gavrylenko, A. Grassi, Quantum spectral problems and isomonodromic deformations, Commun. Math. Phys., 393(1), 347-418 (2022); arXiv:2105.00985, Scopus: 2-s2.0-85131325229, ADS: 2022CMaPh.393..347B, InSpire: 1861707.
11. L. Barash, S. Güttel, I. Hen, Calculating elements of matrix functions using divided differences, Computer Physics Communications 271, 108219 (2022); arXiv:2107.14124, WoS: 000754651700003, Scopus: 2-s2.0-85119215250, ADS: 2022CoPhC.27108219B, InSpire: 1969435, РИНЦ: 47526878, MathSciNet: 4341603.
12. Yu.M. Yevdokimov, S.G. Skuridin, V.I. Salyanov, E.I. Kats, Observations of three “re-entrant” twisted structures in double-stranded DNA dispersion particles, European Biophysics Journal, 51(1), 85-94 (2022), WoS: 000723073900001, Scopus: 2-s2.0-85120045668, РИНЦ: 47533283.
13. A.Yu. Kamenshchik, A.A. Starobinsky, T. Vardanyan, Massive scalar field in de Sitter spacetime: a two-loop calculation and a comparison with the stochastic approach, European Physical Journal C 82, 345 (2022); arXiv:2109.05625, Scopus: 2-s2.0-85128444791, ADS: 2022EPJC...82..345K, InSpire: 1921015.
14. S.V. Zavarzin, A.L. Kolesnikov, Yu.A. Budkov, L.Yu. Barash, Influence of fluid flows on electric double layers in evaporating colloidal sessile droplets, European Physical Journal E 45, 24 (2022), WoS: 000768827800002, Scopus: 2-s2.0-85126212146.
15. S. Dremov, D. Kachulin, A. Dyachenko, Two Models for 2D Deep Water Waves, Fluids, 7(6), art. 204 (2022), Scopus: 2-s2.0-85132769026, ADS: 10.3390/fluids7060204.
16. T. Arakawa, T. Creutzig, B. Feigin, Urod algebras and Translation of W-algebras, Forum of Mathematics, Sigma, 10, art. e33 (2022); arXiv:2010.02427, Scopus: 2-s2.0-85131817830, ADS: 2020arXiv201002427A, InSpire: 1821622.
17. J.S. Martins, O.F. Piattella, I.L. Shapiro, A.A. Starobinsky, Inflation with sterile scalar coupled to massive fermions and to gravity, Gravitation and Cosmology, 28(3), 217-227 (2022); arXiv:2010.14639, ADS: 2022GrCo...28..217M, InSpire: 1826631.
18. R. Casadio, A. Kamenshchik, I. Kuntz, Absence of covariant singularities in pure gravity, Int. J. Mod. Phys. D 31(01), 2150130 (2022); arXiv:2008.09387, WoS: 000760859400012, Scopus: 2-s2.0-85120372015, ADS: 2020arXiv200809387C, РИНЦ: 47535019, MathSciNet: 4386036.
19. T. Creutzig, B. Feigin, A.R. Linshaw, N = 4 Superconformal Algebras and Diagonal Cosets, Int. Math. Res. Notices, 2022(03), 2180-2223 (2022); arXiv:1910.01228, WoS: 000740670600013, Scopus: 2-s2.0-85127297946, ADS: 2019arXiv191001228C, InSpire: 1757425.
20. A.Y. Kamenshchik, A. Tronconi, G. Venturi, DBI inflation and warped black holes, J. Cosm. Astropart. Phys., 2022(01), 051 (2022); arXiv:2110.08112, WoS: 000751303400005, Scopus: 2-s2.0-85125451654, ADS: 2022JCAP...01..051K, InSpire: 1945746, MathSciNet: 4426450, zbMath: 07488057.
21. D. Polarski, A.A. Starobinsky, Y. Verbin, Bouncing cosmological isotropic solutions in scalar-tensor gravity, J. Cosm. Astropart. Phys., 2022(01), 052 (2022); arXiv:2111.07319, WoS: 000751303400003, Scopus: 2-s2.0-85125459803, ADS: 2022JCAP...01..052P, InSpire: 1968869, MathSciNet: 4426451.
22. L. Giani, O.F. Piattella, A.Yu. Kamenshchik, Bianchi IX gravitational collapse of matter inhomogeneities, J. Cosm. Astropart. Phys., 2022(03), 028 (2022); arXiv:2112.01869, WoS: 000770126800005, Scopus: 2-s2.0-85127074588, ADS: 2022JCAP...03..028G, InSpire: 1983551.
23. M. Alfimov, A. Litvinov, On loop corrections to integrable 2D sigma model backgrounds, J. High Energy Phys., 2022(01), 043 (2022); arXiv:2110.05418, WoS: 000742012500006, Scopus: 2-s2.0-85122951000, ADS: 2022JHEP...01..043A, InSpire: 1941319, MathSciNet: 4403501.
24. E. Chistyakova, A. Litvinov, P. Orlov, Affine Yangian of gl(2) and integrable structures of superconformal field theory, J. High Energy Phys., 2022(03), 102 (2022); arXiv:2110.05870, WoS: 000770758600001, Scopus: 2-s2.0-85126762402, ADS: 2022JHEP...03..102C, InSpire: 1942172, MathSciNet: 4426191.
25. G.E. Volovik, Gravity from symmetry breaking phase transition, J. Low Temp. Phys. 207(3-4), 127-137 (2022); arXiv:2111.07817, WoS: 000769359200002, Scopus: 2-s2.0-85126319214, ADS: 2022JLTP..207..127V, InSpire: 1968889.
26. G.E. Volovik, Combined Lorentz symmetry: Lessons from superfluid ³He, J. Low Temp. Phys., 206(1-2), 1-15 (2022); arXiv:2011.06466, WoS: 000712704800001, Scopus: 2-s2.0-85118326790, ADS: 2022JLTP..206....1V, InSpire: 1829787.
27. M. Bershtein, A. Vargulevich, NSR singular vectors from Uglov polynomials, J. Math. Phys. 63, 061706 (2022); arXiv:2202.11810, Scopus: 2-s2.0-85133655773, ADS: 2022JMP....63f1706B, InSpire: 2037705.
28. B. Lacroix-A-Chez-Toine, S.B. Fedeli, Yan V. Fyodorov, Superposition of Random Plane Waves in High Spatial Dimensions: Random Matrix Approach to Landscape Complexity, J. Math. Phys. 63, 093301 (2022); arXiv:2202.03815, ADS: 2022JMP....63i3301L.
29. B. Lacroix-A-Chez-Toine, Yan V. Fyodorov, Counting equilibria in a random non-gradient dynamics with heterogeneous relaxation rates, J. Phys. A 55(14), 144001 (2022) [Corrigendum: Counting equilibria in a random non-gradient dynamics with heterogeneous relaxation rates (2022 J. Phys. A: Math. Theor. 55 144001), J. Phys. A 55(24), 249501 (2022)]; arXiv:2112.11250, WoS: 000766852400001, Scopus: 2-s2.0-85126462297, ADS: 2022JPhA...55n4001L.
30. Y.V. Fyodorov, M. Osman, Eigenfunction non-orthogonality factors and the shape of CPA-like dips in a single-channel reflection from lossy chaotic cavities, J. Phys. A 55(22), 224013 (2022); arXiv:2105.03665, Scopus: 2-s2.0-85130713928, ADS: 2022JPhA...55v4013F.
31. V.P. Mineev, Low Temperature Specific Heat and Thermal Conductivity in Superconducting UTe₂, J. Phys. Soc. Japan, 91(7), 074601 (2022); arXiv:2201.09800, Scopus: 2-s2.0-85133131546, ADS: 2022JPSJ...91g4601M.
32. M.S. Bahovadinov, S.I. Matveenko, Effects of a single impurity in a Luttinger liquid with spin-orbit coupling, J. Phys.: Condens. Matter 34, 315601 (2022); arXiv:2203.12263, Scopus: 2-s2.0-85131662057, ADS: 2022JPCM...34E5601B.
33. Yu.N. Ovchinnikov, Josephson Current as a Boundary Condition for Gor’kov Equations, J. Supercond. Nov. Magn., 35(3), 663-668 (2022), WoS: 000749113100002, Scopus: 2-s2.0-85123820994.
34. M. Guskova, E. Burovski, V. Shchur, L. Shchur, Simulation of the Particle Dynamics in the Two-Dimensional Poiseuille Flow with Low Reynolds Number, Lobachevskii J. Math., 43(2), 381-385 (2022), Scopus: 2-s2.0-85130293135, РИНЦ: 48279817.
35. L. Ziganurova, L. Shchur, Algorithm for Adaptive Mesh Redistribution in Lattice Boltzmann Simulations, Lobachevskii J. Math., 43(2), 513-518 (2022), Scopus: 2-s2.0-85130225847.
36. G.E. Volovik, Negative Newton constant may destroy some conjectures, Mod. Phys. Lett. A 37(06), 2250034 (2022); arXiv:2202.12743, WoS: 000776206300002, Scopus: 2-s2.0-85127866506, ADS: 2022MPLA...3750034V, InSpire: 2038878.
37. R. Casadio, A. Kamenshchik, I. Kuntz, Covariant singularities: a brief review, Mod. Phys. Lett. A 37(10), 2230007 (2022); arXiv:2203.11259, Scopus: 2-s2.0-85129808187, ADS: 2022arXiv220311259C, InSpire: 2056919, MathSciNet: 4417488.
38. R. Kumar, S.K. Srivastav, C. Spånslätt, K. Watanabe, T. Taniguchi, Y. Gefen, A.D. Mirlin, A. Das, Observation of ballistic upstream modes at fractional quantum Hall edges of graphene, Nature Communications 13, No.1, Art. 213 (2022); arXiv:2107.12616, WoS: 000741852200040, Scopus: 2-s2.0-85122831590, ADS: 2022NatCo..13..213K, РИНЦ: 48142497.
39. S. Autti, P.J. Heikkinen, J. Nissinen, J.T. Mäkinen, G.E. Volovik, V.V. Zavjalov, V.B. Eltsov, Nonlinear two-level dynamics of quantum time crystals, Nature Communications 13, No.1, art. 3090 (2022) [Publisher Correction: Nonlinear two-level dynamics of quantum time crystals, Nature Communications 13, 3829 (2022)]; arXiv:2107.05236, Scopus: 2-s2.0-85131171809, ADS: 2022NatCo..13.3090A, InSpire: 2091481.
40. R.A. Melcer, B. Dutta, C. Spånslätt, J. Park, A.D. Mirlin, V. Umansky, Absent thermal equilibration on fractional quantum Hall edges over macroscopic scale, Nature Communications 13, No.1, Art. 376 (2022); arXiv:2106.12486, WoS: 000744588000012, Scopus: 2-s2.0-85123051818, ADS: 2022NatCo..13..376M, РИНЦ: 48144500.
41. S.K. Srivastav, R. Kumar, C. Spånslätt, K. Watanabe, T. Taniguchi, A.D. Mirlin, Y. Gefen, A. Das, Determination of topological edge quantum numbers of fractional quantum Hall phases by thermal conductance measurements, Nature Communications, 13, 5185 (2022), Scopus: 2-s2.0-85137159704.
42. Chang-woo Cho, Cheuk Yin Ng, Chi Ho Wong, M. Abdel-Hafiez, A.N. Vasiliev, D.A. Chareev, A.G. Lebed, R. Lortz, Competition between orbital effects, Pauli limiting, and Fulde–Ferrell–Larkin–Ovchinnikov states in 2D transition metal dichalcogenide superconductors, New J. Phys. 24, 083001 (2022); arXiv:2201.09428, Scopus: 2-s2.0-85135984424, ADS: 2022NJPh...24h3001C.
43. O. Andreev, String breaking in a cold wind as seen by string models, Nuclear Physics B 977, 115724 (2022); arXiv:2106.14716, Scopus: 2-s2.0-85126538917, ADS: 2022NuPhB.97715724A, InSpire: 1870503, MathSciNet: 4396590.
44. A.A. Artemev, Note on large-p limit of (2,2p + 1) minimal Liouville gravity and moduli space volumes, Nuclear Physics B 981, 115876 (2022); arXiv:2203.06629, Scopus: 2-s2.0-85132237118, ADS: 2022NuPhB.98115876A, InSpire: 2051109.
45. A. Belavin, V. Belavin, S. Parkhomenko, Explicit construction of N=2 SCFT orbifold models. Spectral flow and mutual locality, Nuclear Physics B 982, 115891 (2022); arXiv:2206.03472, Scopus: 2-s2.0-85134486871, ADS: 2022NuPhB.98215891B, InSpire: 2092655.
46. V.V. Shepelev, Yu.V. Petrov, N.A. Inogamov, V.V. Zhakhovsky, E.A. Perov, S.V. Fortova, Attenuation and inflection of initially planar shock wave generated by femtosecond laser pulse, Optics & Laser Technology, 152, 108100 (2022), Scopus: 2-s2.0-85127536392, ADS: 2022OptLT.15208100S.
47. M. Shavit, N. Vladimirova, G. Falkovich, Emerging scale invariance in a model of turbulence of vortices and waves, Phil. Trans. Roy. Soc. A 380(2218), 20210080 (2022), WoS: 000743057000007, Scopus: 2-s2.0-85123567292, ADS: 2022RSPTA.38010080S.
48. V.P. Ruban, W. Wang, C. Ticknor, P.G. Kevrekidis, Instabilities of a vortex-ring-bright soliton in trapped binary three-dimensional Bose-Einstein condensates, Phys. Rev. A 105, 013319 (2022); arXiv:2109.08592, WoS: 000753854300005, Scopus: 2-s2.0-85123604468, ADS: 2022PhRvA.105a3319R, MathSciNet: 4377111.
49. S.I. Matveenko, M.S. Bahovadinov, M.A. Baranov, G.V. Shlyapnikov, Rotons and their damping in elongated dipolar Bose-Einstein condensates, Phys. Rev. A 106, 013319 (2022); arXiv:2112.06835, ADS: 2022PhRvA.106a3319M.
50. S. Li, A. Levchenko, A.V. Andreev, Hydrodynamic thermoelectric transport in Corbino geometry, Phys. Rev. B 105, 125302 (2022); arXiv:2112.08379, WoS: 000771483700006, Scopus: 2-s2.0-85126434662, ADS: 2022PhRvB.105l5302L.
51. U.E. Khodaeva, M.A. Skvortsov, Vortex core near planar defects in a clean layered superconductor, Phys. Rev. B 105, 134504 (2022); arXiv:2112.06303, Scopus: 2-s2.0-85128435157, ADS: 2022PhRvB.105m4504K.
52. Songci Li, A.V. Andreev, Alex Levchenko, Hydrodynamic electron transport in graphene Hall-bar devices, Phys. Rev. B 105, 155307 (2022); arXiv:2202.10472, Scopus: 2-s2.0-85129378893, ADS: 2022PhRvB.105o5307L.
53. V.A. Zyuzin. A.M. Finkel'stein, Fluctuation-induced odd-frequency spin-triplet pairing in a disordered electron liquid, Phys. Rev. B 105, 214523 (2022), Scopus: 2-s2.0-85133518947, ADS: 2022PhRvB.105u4523Z.
54. A.V. Andreev, Electronic pumping of heat without charge transfer, Phys. Rev. B 105, L081410 (2022); arXiv:2110.08361, WoS: 000761168400003, Scopus: 2-s2.0-85125994215, ADS: 2022PhRvB.105h1410A.
55. A.V. Rozhkov, T. Liu, A.V. Andreev, B.Z. Spivak, Negative critical currents in single-channel Josephson junctions, Phys. Rev. B 105, L201401 (2022); arXiv:2202.08039, Scopus: 2-s2.0-85130522058, ADS: 2022PhRvB.105t1401R.
56. M.A. Skvortsov, M. Amini, V.E. Kravtsov, Sensitivity of (multi)fractal eigenstates to a perturbation of the Hamiltonian, Phys. Rev. B 106, 054208 (2022); arXiv:2205.10297, ADS: 2022arXiv220510297S.
57. M.S. Bahovadinov, D.V. Kurlov, S.I. Matveenko, B.L. Altshuler, G.V. Shlyapnikov, Many-body localization transition in a frustrated XY chain, Phys. Rev. B 106, 075107 (2022); arXiv:2111.12687, Scopus: 2-s2.0-85136179222, ADS: 2022PhRvB.106g5107B.
58. P. Pöpperl, I.V. Gornyi, A.D. Mirlin, Memory effects in the density-wave imbalance in delocalized disordered systems, Phys. Rev. B 106, 094201 (2022).
59. I.V. Kochergin, Calabi-Yau manifolds in weighted projective spaces and their mirror gauged linear sigma models, Phys. Rev. D 105, 066008 (2022); arXiv:2112.06335, Scopus: 2-s2.0-85126945273, ADS: 2022PhRvD.105f6008K, InSpire: 1989061.
60. F.R. Klinkhamer, G.E. Volovik, Big bang as a topological quantum phase transition, Phys. Rev. D 105, 084066 (2022); arXiv:2111.07962, Scopus: 2-s2.0-85129764989, ADS: 2022PhRvD.105h4066K, InSpire: 1968935.
61. O. Andreev, QQ¯q¯q potential in string models, Phys. Rev. D 105, 086025 (2022); arXiv:2111.14418, Scopus: 2-s2.0-85129289477, ADS: 2022PhRvD.105h6025A, InSpire: 1978747.
62. J. Miller, G.E. Volovik, M.A. Zubkov, Fundamental scalar field with zero dimension from anomaly cancellations, Phys. Rev. D 106, 015021 (2022); arXiv:2202.05726, Scopus: 2-s2.0-85135923154, ADS: 2022PhRvD.106a5021M, InSpire: 2031377.
63. J. Nissinen, G.E. Volovik, Anomalous chiral transport with vorticity and torsion: Cancellation of two mixed gravitational anomaly currents in rotating chiral p+ip Weyl condensates, Phys. Rev. D 106, 045022, Scopus: 2-s2.0-85136984016, ADS: 2022PhRvD.106d5022N, InSpire: 1969744.
64. Oleg Andreev, Towards a Stringy Description for the QQ¯qq¯-Quark System, Phys. Rev. D 106, 066002 (2022); arXiv:2205.12119, ADS: 2022PhRvD.106f6002A, InSpire: 2087091.
65. V. Parfenyev, Profile of a two-dimensional vortex condensate beyond the universal limit, Phys. Rev. E 106, 025102 (2022); arXiv:2208.01959, ADS: 2022PhRvE.106b5102P.
66. I.S. Burmistrov, V.Yu. Kachorovskii, M.J. Klug, J. Schmalian, Emergent continuous symmetry in anisotropic flexible two-dimensional materials, Phys. Rev. Lett. 128, 096101 (2022); arXiv:2108.10325, WoS: 000767031500008, Scopus: 2-s2.0-85126456807, ADS: 2022PhRvL.128i6101B, MathSciNet: 4396448.
67. J.W. Banks, T. Buckmaster, A.O. Korotkevich, G. Kovačič, J. Shatah, Direct verification of the kinetic description of wave turbulence for finite-size systems dominated by interactions among groups of six waves, Phys. Rev. Lett. 129, 034101 (2022); arXiv:2109.02477, Scopus: 2-s2.0-85134506299, ADS: 2022PhRvL.129c4101B.
68. S.S. Evseev, I.S. Burmistrov, K.S. Tikhonov, V.Yu. Kachorovskii, Effect of elastic disorder on single-electron transport through a buckled nanotube, Phys. Rev. Research 4, 013068 (2022); arXiv:2107.10887, WoS: 000751876800015, Scopus: 2-s2.0-85125581202, ADS: 2022PhRvR...4a3068E, РИНЦ: 48187245.
69. J.F. Steiner, A.V. Andreev, M. Breitkreiz, Surface photogalvanic effect in Weyl semimetals, Phys. Rev. Research 4, 023021 (2022); arXiv:2109.02274, Scopus: 2-s2.0-85128820630, ADS: 2022PhRvR...4b3021S .
70. E.V.H. Doggen, Yu. Gefen, I.V. Gornyi, A.D. Mirlin, D.G. Polyakov, Generalized quantum measurements with matrix product states: Entanglement phase transition and clusterization, Phys. Rev. Research 4, 023146 (2022); arXiv:2104.10451, Scopus: 2-s2.0-85132125657, ADS: 2022PhRvR...4b3146D, InSpire: 1859578.
71. S.S. Babkin, A.A. Lyublinskaya, I.S. Burmistrov, Broadened Yu-Shiba-Rusinov states in dirty superconducting films and heterostructures, Phys. Rev. Research 4, 023202 (2022); arXiv:2201.11723, Scopus: 2-s2.0-85134364206, ADS: 2022PhRvR...4b3202B.
72. S.V. Filatov, A.V. Poplevin, A.A. Levchenko, V.M. Parfenyev, Generation of stripe-like vortex flow by noncollinear waves on the water surface, Physica D 434, 133218 (2022); arXiv:2105.13097, Scopus: 2-s2.0-85126950209, ADS: 2022PhyD..43433218F, MathSciNet: 4399242.
73. A.V. Vikulova, Parallel coordinates in three dimensions and sharp spectral isoperimetric inequalities, Ricerche di Matematica, 71(1), 41-52 (2022); arXiv:1906.11141, WoS: 000554427900001, Scopus: 2-s2.0-85088834426, ADS: 2019arXiv190611141V, РИНЦ: 45433985.
74. K. Dubovitskii, Yu. Makhlin, Partial randomized benchmarking, Scientific Reports 12(1), 10129 (2022); arXiv:2111.04192, Scopus: 2-s2.0-85132127004, ADS: 2022NatSR..1210129D, InSpire: 1963546.
75. P.A. Nosov, I.M. Khaymovich, A. Kudlis, V.E. Kravtsov, Statistics of Green's functions on a disordered Cayley tree and the validity of forward scattering approximation, SciPost Phys. 12(2), 048 (2022); arXiv:2108.10326, WoS: 000752020900001, Scopus: 2-s2.0-85124995461, ADS: 2021arXiv210810326N, InSpire: 1959527.
76. A.V. Lunkin, M.V. Feigel'man, Non-equilibrium Sachdev-Ye-Kitaev model with quadratic perturbation, SciPost Phys. 12, 031 (2022); arXiv:2106.11245, Scopus: 2-s2.0-85124421255, ADS: 2022ScPP...12...31A, InSpire: 1869565, MathSciNet: 4367365.
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87. Н.А. Иногамов, В.В. Жаховский, В.А. Хохлов, Физические процессы при лазерной абляции в жидкость, Письма в ЖЭТФ, 115 (1), 20-27 (2022) [N.A. Inogamov, V.V. Zhakhovskii, V.A. Khokhlov, Physical Processes Accompanying Laser Ablation in Liquid, JETP Letters 115(1), 16-22 (2022)], WoS: 000773937900004, Scopus: 2-s2.0-85127325233, ADS: 2022JETPL.115...16I, РИНЦ: 47484131.
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91. А.В. Лункин, Эффект бабочки в системе квантовых точек в модели Сачдева-Йе-Китаева, Письма в ЖЭТФ, 115 (5), 328-335 (2022) [A.V. Lunkin, Butterfly effect in a system of quantum dots in the Sachdev–Ye–Kitaev model, JETP Letters, 115(5), 297-304 (2022)]; arXiv:2207.08793, Scopus: 2-s2.0-85132628617, ADS: 2022JETPL.115..297L.
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94. G.E. Volovik, Quantum turbulence and Planckian dissipation, Письма в ЖЭТФ, 115 (8), 498-499 (2022) [JETP Letters, 115(8), 461-465 (2022)]; arXiv:2203.10943, Scopus: 2-s2.0-85127980996, ADS: 2022JETPL.115..461V, РИНЦ: 48443883.
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Статьи в сборниках

104. A.O. Barvinsky, A.Yu. Kamenshchik, Preferred Basis, Decoherence and the Quantum State of the Universe, Fundamental Theories of Physics, Vol.204, 97-120 (2022) [From Quantum to Classical: Essays in Honour of H.-Dieter Zehl, Kiefer, C. (eds), Springer, 2022. ISBN: 978-3-030-88781-0]; arXiv:2006.16812, Scopus: 2-s2.0-85126653468, ADS: 2022fqce.book...97B.

Труды конференций

105. K.K. Kesharpu, V.D. Kochev, P.D. Grigoriev, Peculiar effect of sample size in layered superconductors, AIP Conf. Proceedings 2551, 030002 (2022) [Low-dimensional Materials: Theory, Modeling, Experiment, Dubna, 12-17 July 2021]; arXiv:2209.07085, ADS: 2022AIPC.2551c0002K.
106. P. Nosov, I. Burmistrov, S. Raghu, Superconductivity and localization near a two-dimensional ferromagnetic quantum critical point, APS March Meeting 2022, abstract id.Q63.008, ADS: 2022APS..MARQ63008N.
107. D. Antonenko, P. Ostrovsky, M. Skvortsov, Emergent inhomogeneity in dirty superconductors: microscopic theory, Bulletin of the American Physical Society, Vol. 67, No.3, A57.00005 (2022) [APS March Meeting, March 14–18, 2022, Chicago, abstract id.A57.005], ADS: 2022APS..MARA57005A.
108. Y. Senichev, A. Aksentyev, S. Kolokolchikov, A. Melnikov, V. Ladygin, E. Syresin, N. Nikolaev, Quasi-Frozen Spin Concept of Magneto-Optical Structure of NICA Adapted to Study the Electric Dipole Moment of the Deuteron and to Search for the Axion, Journals of Accelerator Conferences Website (JACoW), IPAC2022 MOPOTK024, p.492-494 (2022) [Proc. 13th International Particle Accelerator Conference (IPAC 2022), 17-22 June 2022. Muangthong Thani, Thailand], InSpire: 2137256.
109. A.G. Lebed, Breakdown of the equivalence between gravitational mass and energy due to quantum effects, The Fifteenth Marcel Grossmann Meeting, pp. 167-188 (2022) [Proc. 15th Marcel Grossmann Meeting on General Relativity, University of Rome “La Sapienza”, Italy , 1 – 7 July 2018].

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Прочее

143. V.L. Pokrovsky, My Life and Science, Annual Review of Condensed Matter Physics, 13, 15-31 (2022), Scopus: 2-s2.0-85127230529.

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