Институт теоретической физики им. Л.Д. Ландау


Российской академии наук

Публикации




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, РИНЦ: 48423928, MathSciNet: 4402974, zbMath: 07534679, EDN: WVYCGF.
  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, РИНЦ: 49157385, MathSciNet: 4441150, zbMath: 1492.14087, EDN: IFIHNB.
  3. 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 447(Pt.2), 168916 (2022); arXiv:2203.13640, Scopus: 2-s2.0-85130506460, ADS: 2022AnPhy.44768916P, РИНЦ: 48585130, EDN: QCQVJC.
  4. G.E. Volovik, From elasticity tetrads to rectangular vielbein, Annals of Physics 447(Pt.2), 168998 (2022); arXiv:2205.15222, Scopus: 2-s2.0-85133800635, ADS: 2022AnPhy.44768998V, InSpire: 2089059.
  5. A.Ya. Maltsev, S.P. Novikov, Open level lines of a superposition of periodic potentials on a plane, Annals of Physics 447(Pt.2), 169039 (2022); arXiv:2206.04014, Scopus: 2-s2.0-85135517200, ADS: 2022AnPhy.44769039M, InSpire: 2-s2.0-85135517200.
  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 447(Pt.2), 169072 (2022), Scopus: 2-s2.0-85136706861, ADS: 2022AnPhy.44769072D.
  7. E.A. Kuznetsov, E.A. Mikhailov, Slipping flows and their breaking, Annals of Physics 447(Pt.2), 169088 (2022); arXiv:2207.10621, Scopus: 2-s2.0-85138505074, ADS: 2022AnPhy.44769088K.
  8. S.N. Vergeles, Domain wall between the Dirac sea and the 'anti-Dirac sea', Class. Quantum Grav. 39, 038001 (2022); arXiv:2202.12944, WoS: 000745307500001, Scopus: 2-s2.0-85123897475, ADS: 2022CQGra..39c8001V, InSpire: 2017124, РИНЦ: 48146790, MathSciNet: 4382269, EDN: XHINKV.
  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, MathSciNet: 4459281.
  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, РИНЦ: 49149198, MathSciNet: 4440693, zbMath: 07545284, EDN: CYJEEL.
  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, EDN: NZAIUJ.
  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, РИНЦ: 48429913, EDN: WMDOIO.
  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); arXiv:2110.01306, WoS: 000768827800002, Scopus: 2-s2.0-85126212146, РИНЦ: 48190759, EDN: NDMZIU.
  15. S. Dremov, D. Kachulin, A. Dyachenko, Two models for 2D deep water waves, Fluids, 7(6), art. 204 (2022), WoS: 000816353200001, Scopus: 2-s2.0-85132769026, ADS: 2022Fluid...7..204D, РИНЦ: 49149848, EDN: LNOEWM.
  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, WoS: 000807579100001, Scopus: 2-s2.0-85131817830, ADS: 2020arXiv201002427A, InSpire: 1821622, РИНЦ: 49156218, MathSciNet: 4436591, zbMath: 07541105, EDN: SPWVLC.
  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, Scopus: 2-s2.0-85139031512, ADS: 2022GrCo...28..217M, InSpire: 1826631, MathSciNet: 4478076, zbMath: 07600199.
  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, InSpire: 1812777, РИНЦ: 47535019, MathSciNet: 4386036, zbMath: 07549919, EDN: QBINRE.
  19. S. Abenda, P.G. Grinevich, Geometric nature of relations on plabic graphs and totally non-negative Grassmannians, Int. Math. Res. Not., rnac162 (2022) , 66 pp.; arXiv:2111.05782, WoS: 000823547800001, ADS: 2021arXiv211105782A.
  20. 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, РИНЦ: 48424167, MathSciNet: 4366001, zbMath: 07471376, EDN: XUEYUM.
  21. 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, РИНЦ: 48187421, MathSciNet: 4426450, zbMath: 1486.83145, EDN: JLHUQZ.
  22. 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, РИНЦ: 48186358, MathSciNet: 4426451, EDN: PUKOAT.
  23. 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, РИНЦ: 48420615, EDN:  VIJQMH.
  24. A.I. Dyachenko, S.A. Dyachenko, V.E. Zakharov, Free surface in two-dimensional potential flow: singularities, invariants and virtual fluid, J. Fluid Mech., 952, A30 (2022); arXiv:2109.13159, Scopus: 2-s2.0-851436334508, ADS: 2022JFM...952A..30D.
  25. 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, РИНЦ: 48142998, MathSciNet: 4403501, zbMath: 7605072, EDN: MMWSKX.
  26. 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, РИНЦ: 48194383, MathSciNet: 4426191, EDN: NEWHKX.
  27. 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.
  28. 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.
  29. 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, MathSciNet: 4440645.
  30. V.E. Adler, M.P. Kolesnikov, Non-Abelian Toda lattice and analogs of Painlevé III equation, J. Math. Phys. 63, 103504 (2022); arXiv:2203.09977, Scopus: 2-s2.0-85140469594, ADS: 2022JMP....63j3504A, MathSciNet: 4496359.
  31. 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, РИНЦ: 49156682, MathSciNet: 4438631, EDN: GQPUWF.
  32. Yan 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, MathSciNet: 4424921.
  33. V.P. Mineev, Low temperature specific heat and thermal conductivity in superconducting UTe2, J. Phys. Soc. Japan, 91(7), 074601 (2022); arXiv:2201.09800, WoS: 000818998400007, Scopus: 2-s2.0-85133131546, ADS: 2022JPSJ...91g4601M, РИНЦ: 49150646, EDN: JSKZTY.
  34. 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, РИНЦ: 49149858, EDN: HSICOS.
  35. 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, РИНЦ: 48147114, EDN: TPPVTM.
  36. I. Bobrova, V. Sokolov, Classification of Hamiltonian non-abelian Painlevé type systems, Journal of Nonlinear Mathematical Physics, Published online 23 Dec. 2022; arXiv:2209.00258, ADS: 2022arXiv220900258B.
  37. S. Abenda, P.G. Grinevich, Real regular KP divisors on M-curves and totally non-negative Grassmannians, Lett. Math. Phys. 112, 115 (2022) (64 pp.); arXiv:2002.04865, Scopus: 2-s2.0-85141962561, ADS: 2022LMaPh.112..115A, MathSciNet: 4510475, zbMath: 07621081.
  38. 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, MathSciNet: 4430717, zbMath: 1495.76083, EDN: LELQFA.
  39. 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, РИНЦ: 48279830, MathSciNet: 4430730, zbMath: 1495.76085, EDN: IHNHTU.
  40. 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, РИНЦ: 48427356, EDN: GEECZZ.
  41. I. Kuntz, R. Casadio, A. Kamenshchik, Covariant singularities: a brief review, Mod. Phys. Lett. A 37(10), 2230007 (2022); arXiv:2203.11259, Scopus: 2-s2.0-85129808187, ADS: 2022MPLA...3730007K , InSpire: 2056919, MathSciNet: 4417488.
  42. 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, 3090 (2022) [Publisher Correction: Nonlinear two-level dynamics of quantum time crystals, Nature Communications 13, No.1, 3829 (2022)]; arXiv:2107.05236, WoS: 000805202900003, Scopus: 2-s2.0-85131171809, ADS: 2022NatCo..13.3090A, InSpire: 2091481, РИНЦ: 49149167, EDN: OYQLFQ.
  43. 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, No.1, 5185 (2022), Scopus: 2-s2.0-85137159704, ADS: 2022NatCo..13.5185S.
  44. A. Dane, J. Allmaras, Di Zhu, M. Onen, M. Colangelo, R. Baghdadi, J.-L. Tambasco, Y. Morimoto, I.E. Forno, I. Charaev, Q. Zhao, M. Skvortsov, A. Kozorezov, K.K. Berggren, Self-heating hotspots in superconducting nanowires cooled by phonon black-body radiation, Nature Communications 13, No.1, 5429 (2022), WoS: 000854793700016, Scopus: 2-s2.0-85138184664, ADS: 2022NatCo..13.5429D.
  45. 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, EDN: QVPQZI.
  46. 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, EDN: LKPVAF.
  47. 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.
  48. I.A. Bobrova, V.V. Sokolov, On matrix Painlevé-4 equations, Nonlinearity, 35(12), 6528-6556 (2022); arXiv:2110.12159, Scopus: 2-s2.0-85143082567, ADS: 2022Nonli..35.6528B, MathSciNet: 4512746, zbMath: 07629725.
  49. 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, РИНЦ: 48192502, MathSciNet: 4396590, zbMath: 1491.81024, EDN: OJLHOY.
  50. 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, РИНЦ: 49156748, EDN: TSVGYH.
  51. 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, MathSciNet: 4452744, zbMath: 07566155.
  52. S. Parkhomenko, Spectral flow construction of mirror pairs of CY orbifolds, Nuclear Physics B 985, 116005 (2022); arXiv:2208.11612, Scopus: 2-s2.0-85141334235, ADS: 2022NuPhB.98516005P, InSpire: 2141311, MathSciNet: 4504585.
  53. A. Artemev, A. Belavin, Five-point correlation numbers in minimal Liouville gravity and matrix models, Nuclear Physics B 985, 116019 (2022); arXiv:2207.01665, Scopus: 2-s2.0-85142133755, ADS: 2022NuPhB.98516019A, InSpire: 2106139.
  54. D. Kolyaskin, A. Litvinov, A. Zhukov, R-matrix formulation of affine Yangian of glˆ(1|1), Nuclear Physics B 985, 116023 (2022); arXiv:2206.01636, Scopus: 2-s2.0-85142372690, ADS: 2022NuPhB.98516023K, InSpire: 2091309.
  55. 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, РИНЦ: 48425143, EDN: VHYDQC.
  56. 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.
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  58. 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, Scopus: 2-s2.0-85135760555, ADS: 2022PhRvA.106a3319M, РИНЦ: 4468681.
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  60. 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, WoS: 000800751300001, Scopus: 2-s2.0-85128435157, ADS: 2022PhRvB.105m4504K, РИНЦ: 48430815, EDN: WZHKRR.
  61. Songci Li, A.V. Andreev, Alex Levchenko, Hydrodynamic electron transport in graphene Hall-bar devices, Phys. Rev. B 105, 155307 (2022); arXiv:2202.10472, WoS: 000806638200002, Scopus: 2-s2.0-85129378893, ADS: 2022PhRvB.105o5307L, РИНЦ: 48588491, EDN: PTPRSU.
  62. 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, РИНЦ: 49152484, EDN: MGQAID.
  63. A.V. Rozhkov, T. Liu, A.V. Andreev, B.Z. Spivak, 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, РИНЦ: 48189616, EDN: CNAVRD.
  64. 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, РИНЦ: 49155558, EDN: WGECIA.
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  127. Е.А. Кочурин, Е.А. Кузнецов, Прямое численное моделирование акустической турбулентности: спектр Захарова-Сагдеева, Письма ЖЭТФ, 116(12), 830-835 (2022) [E.A. Kochurin, E.A. Kuznetsov, Direct numerical simulation of acoustic turbulence: Zakharov-Sagdeev spectrum, JETP Letters, 116(12), ... (2022)]; arXiv:2211.09430, ADS: 2022JETPL.tmp..103K, РИНЦ: 49898144, EDN: NDVODB.
  128. S. Backens, A. Shnirman, Yu. Makhlin, Topological Josephson junction in transverse magnetic field, Письма ЖЭТФ, 116(12), 855-856 (2022) [JETP Letters, 116(12), ... (2022)]; arXiv:2210.16958, ADS: 2022JETPL.tmp..105B, РИНЦ: 49898149, EDN: NEPSNA.
  129. Л.В. Богданов, Лин-Лин Сюэ, Класс редукций двухкомпонентной иерархии Кадомцева–Петвиашвили и система Хироты–Охты, ТМФ, 211(1), 37-47 (2022) [L.V. Bogdanov, Lingling Xue, A class of reductions of the two-component KP hierarchy and the Hirota-Ohta system, Theor. Math. Phys., 211(1), 473-482 (2022)]; arXiv:2112.12759, Scopus: 2-s2.0-85128903245, ADS: 2022TMP...211..473B, РИНЦ: 48514139, MathSciNet: 4461512, EDN:  NJODQW.
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Статьи в сборниках

  1. F. Coppini, P.G. Grinevich, P.M. Santini, Periodic rogue waves and perturbation theory, Encyclopedia of Complexity and Systems Science, eds. R.A. Meyers, Springer Science+Business Media LLC, 2022, p. 565-584 [Perturbation Theory. Mathematics, Methods and Applications, Ed. by Giuseppe Gaeta, Springer, 2022, p. 565-584].
  2. A.O. Barvinsky, A.Yu. Kamenshchik, Preferred basis, decoherence and a 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, Ed. by Claus Kiefer, Springer, 2022. ISBN: 978-3-030-88781-0]; arXiv:2006.16812, Scopus: 2-s2.0-85126653468, ADS: 2022fqce.book...97B, InSpire: 1804354, РИНЦ: 48193157, EDN: ZVHKTS.

Труды конференций

  1. 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, Scopus: 2-s2.0-85139410886, ADS: 2022AIPC.2551c0002K.
  2. 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.
  3. L. Shchur, E. Burovski, V. Chertenkov, Machine learning probing universality class of four models, APS March Meeting 2022, March 14–18, 2022, Chicago, abstract id.K09.004 [Bulletin of the American Physical Society, Vol. 67, No.3, Abstract ID: K09.00004], ADS: 2022APS..MARK09004S.
  4. E. Burovski, L. Shchur, D. Antonov, Mean-field interactions in evolutionary spatial games, APS March Meeting 2022, March 14–18, 2022, Chicago, abstract id.Z09.010 [Bulletin of the American Physical Society, Vol. 67, No.3, Abstract ID: Z09.00010], ADS: 2022APS..MARZ09010B.
  5. 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.
  6. 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, Journal of Accelerator Conferences Website (JACoW), IPAC2022 MOPOTK024, p.492-495 (2022) [Proc. 13th International Particle Accelerator Conference (IPAC 2022), 17-22 June 2022. Muangthong Thani, Thailand], InSpire: 2137256.
  7. V. Chertenkov, E. Burovski, L. Shchur, Deep Machine Learning Investigation of Phase Transitions, Lecture Notes in Computer Science, Vol. 13708, 397-408 (2022) [Supercomputing: 8th Russian Supercomputing Days, RuSCDays 2022, Moscow, Russia, September 26–27, 2022, Revised Selected Papers].
  8. 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].
  9. Л.Л. Огородников, С.С. Вергелес, Исследование корреляционных свойств трехмерного когерентного вихря, Самарские чтения (В память об академике А.А. Самарском). Материалы международной конференции. Москва, 22-25 декабря 2022, с. 200-201 (2022), РИНЦ: 49403761, EDN: NWIGJJ.

Препринты

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Персоналии

  1. П.И. Арсеев, М.А. Васильев, М.И. Высоцкий, А.С. Горский, В.Г. Дринфельд, А.Б. Замолодчиков, В.Е. Захаров, А.В. Литвинов, А.М. Поляков, В.А. Рубаков, Б.Л. Фейгин, М.А. Шифман, Александр Абрамович Белавин (к 80-летию со дня рождения), УФН 192(10), 1179-1180 (2022) [P.I. Arseev, M.A. Vasil’ev, M.I. Vysotskii, A.S. Gorskii, V.G. Drinfeld, A.B. Zamolodchikov, V.E. Zakharov, A.V. Litvinov, A.M. Polyakov, V.A. Rubakov, B.I. Feigin, M.A. Shifman, Aleksandr Abramovich Belevin (on his 80th birthday), Phys. Usp. 65 (10), 1104-1106 (2022)].

Прочее

  1. S. Brazovskii, N. Kirova, I. Burmistrov, E. Kats, V. Galitskii, D. Khmelnitskii, A special issue in memory of prof. Igor Dzyaloshinskii: Editorial Foreword, Annals of Physics 447(Pt.2), 169145 (2022).
  2. V.L. Pokrovsky, My Life and Science, Annual Review of Condensed Matter Physics, 13, 15-31 (2022), Scopus: 2-s2.0-85127230529, РИНЦ: 48421767, EDN: 48421767.