PACS numbers

03.70.+k Theory of quantized fields 05.60.Gg Quantum transport 11.10.Wx Finite-temperature field theory 72.10.Bg General formulation of transport theory
  1. V.I. Ritus “Finite value of the bare charge and the relation of the fine structure constant ratio for physical and bare charges to zero-point oscillations of the electromagnetic field in a vacuum65 468–486 (2022)
    02.40.−k, 03.70.+k, 05.40.−a, 11.10.Hi, 11.10.Jj, 11.55.Hx, 12.20.−m, 41.60.−m (all)
  2. D.A. Trunin “Pedagogical introduction to the Sachdev—Ye—Kitaev model and two-dimensional dilaton gravity64 219–252 (2021)
    03.70.+k, 04.62.+v, 04.70.Dy, 05.30.Fk, 05.45.Ac, 05.45.Mt, 11.10.Kk, 11.10.Wx (all)
  3. B.I. Sturman “Ballistic and shift currents in the bulk photovoltaic effect theory63 407–411 (2020)
    03.65.−w, 72.10.Bg, 72.10.−d, 72.40.+w, 73.50.Gr (all)
  4. P.I. Arseev, V.N. Mantsevich et alTunneling features in semiconductor nanostructures60 1067–1086 (2017)
    05.60.Gg, 68.37.Ef, 73.40.Gk, 73.63.−b (all)
  5. P.I. Arseev “On the nonequilibrium diagram technique: derivation, some features and applications58 1159–1205 (2015)
    03.70.+k, 05.60.Gg, 11.10.Wx, 72.10.Bg (all)
  6. I.A. Sadovskyy “Reduction of the scattering matrix array58 872–876 (2015)
    72.10.Bg, 73.23.−b, 74.78.Na (all)
  7. T. Konstandin “Quantum transport and electroweak baryogenesis56 747–771 (2013)
    05.60.Gg, 12.15.−y, 12.60.Jv (all)
  8. V.I. Ritus “Duality of two-dimensional field theory and four-dimensional electrodynamics leading to finite value of the bare charge56 565–589 (2013)
    03.70.+k, 12.20.−m, 41.60.−m (all)
  9. M.V. Budantsev, Z.D. Kvon et alOrder, disorder and chaos in 2D lattice of coupled Sinai billiards44 20–24 (2001)
    72.15.−v, 72.15.Rn, 05.60.Gg, 05.45.Mt (all)
  10. T.M. Fromhold, A.A. Krokhin et alChaotic quantum transport in superlattices44 24–27 (2001)
    72.15.−v, 72.15.Rn, 05.60.Gg, 05.45.Mt (all)
  11. F. Evers, A.D. Mirlin et alQuasiclassical memory effects: anomalous transport properties of two-dimensional electrons and composite fermions subject to a long-range disorder44 27–31 (2001)
    72.15.−v, 72.15.Rn, 05.60.Gg, 05.45.Mt (all)
  12. I.M. Suslov “Density of states near the Anderson transition in the $(4-\varepsilon)$-dimensional space44 31–35 (2001)
    72.15.−v, 72.15.Rn, 05.60.Gg, 05.45.Mt (all)
  13. B.L. Ioffe “Chiral effective theory of strong interactions44 1211–1227 (2001)
    11.10.Wx, 12.38.−t, 12.39.Fe (all)
  14. P.S. Isaev, E.A. Mamchur “Conceptual Foundations of Quantum Field Theory43 953–958 (2000)
    01.30.Vv, 01.70.+w, 03.70.+k (all)
  15. S.S. Murzin “Electron transport in the extreme quantum limit in applied magnetic field43 349–364 (2000)
    71.55.+i, 71.70.Di, 72.10.Bg, 72.20.−i (all)
  16. M.I. Krivoruchenko “Transitional currents of spin-1/2 particles37 601–606 (1994)
    03.70.+k, 11.40.−q (all)
  17. A.A. Migdal “Stochastic quantization of field theory29 389–411 (1986)
    11.15.Ha, 12.38.Gc, 03.70.+k, 12.20.Ds, 05.30.−d (all)
  18. A.I. Vainshtein, V.I. Zakharov et alABC of instantons25 195–215 (1982)
    03.70.+k, 11.10.−z, 12.35.Cn (all)
  19. A.B. Migdal “Vacuum polarization in strong fields and pion condensation20 879–898 (1977)
    21.65.+f, 03.70.+k (all)
  20. I.M. Tsidil’kovskii “Electrons and holes in an inertial-force field18 161–166 (1975)
    03.30.+p, 72.15.−v, 72.10.Bg (all)
© 1918–2024 Uspekhi Fizicheskikh Nauk
Email: ufn@ufn.ru Editorial office contacts About the journal Terms and conditions