Институт теоретической физики им. Л.Д. Ландау


Российской академии наук

Павел Борисович Вигман

Ведущий научный сотрудник (ассоциированный)

Доктор физ.-мат. наук

Публикации

    1. P. Wiegmann, Anomalous hydrodynamics of fractional quantum Hall states, ЖЭТФ, 144(3), 617-631 (2013) [JETP 117(3), 538-550 (2013)].
    2. K.B. Efetov, M.V. Feigel’man, P.B. Wiegmann, Comment on “Collective Cooper-Pair Transport in the Insulating State of Josephson-Junction Arrays”, Phys. Rev. Lett., 102, 049701 (2009) [1 pages].
    3. E. Bettelheim, A.G. Abanov, P.B. Wigmann, Quantum hydrodynamics and nonlinear differential equations for degenerate Fermi gas, J. Phys. A 41, 392003 (2008).
    4. K.B. Efetov, M.V. Feigel’man, P.B. Wiegmann, Comment on "Superinsulator and Quantum Synchronization", arXiv:0804.3775.
    5. E. Bettelheim, A.G. Abanov, P. Wiegmann, Nonlinear dynamics of quantum systems and soliton theory, J. Phys. A 40 (8), F193-F207 (2007); nlin/0605006.
    6. I. Rushkin, E. Bettelheim, I.A. Gruzberg, P. Wiegmann, Critical curves in conformally invariant statistical systems, J. Phys. A 40 (9), 2165-2195 (2007).
    7. A. Zabrodin, P. Wiegmann, Large-N expansion for the 2D Dyson gas, J. Phys. A 39(28), 8933-8963 (2006); hep-th/0601009.
    8. E. Bettelheim, A.G. Abanov, P. Wiegmann, Nonlinear quantum shock waves in fractional quantum hall edge states, Phys. Rev. Lett. 97, 246401 (2006); cond-mat/0606778.
    9. E. Bettelheim, A.G. Abanov, P. Wiegmann, Orthogonality catastrophe and shock waves in a nonequilibrium fermi gas, Phys. Rev. Lett. 97, 246402 (2006); cond-mat/0607453.
    10. Seung-Y. Lee, E. Bettelheim, P. Wiegmann, Bubble break-off in Hele-Shaw flows: Singularities and integrable structures, Physica D 219 (1), 22-34 (2006); nlin/0604054.
    11. E. Bettelheim, A.G. Abanov, P. Wiegmann, Quantum Shock Waves - the case for non-linear effects in dynamics of electronic liquids, cond-mat/0606778.
    12. K.B. Efetov, D.E. Khmelnitskii, Yu.N. Ovchinnikov, P.B. Wiegmann, Anatoly Ivanovich Larkin — Obituary, Phys. Today, 59(4), 88-89 (2006).
    13. R. Teodorescu, E. Bettelheim, O. Agam, A. Zabrodin, P. Wiegmann, Normal random matrix ensemble as a growth problem, Nucl. Phys. B 704(3), 407-444 (2005); hep-th/0401165.
    14. R. Teodorescu, P. Wiegmann, A. Zabrodin, Unstable fingering patterns of Hele-Shaw flows as a dispersionless limit of the Kortweg-de Vries hierarchy, Phys. Rev. Lett. 95, 044502 (2005); cond-mat/0502179.
    15. A.G. Abanov, P.B. Wiegmann, Quantum Hydrodynamics, the Quantum Benjamin-Ono Equation, and the Calogero Model, Phys. Rev. Lett. 95, 076402 (2005); cond-mat/0504041.
    16. E. Bettelheim, I. Rushkin, I.A. Gruzberg, P. Wiegmann, On harmonic measure of critical curves, Phys. Rev. Lett. 95, 170602 (2005); hep-th/0507115.
    17. E. Bettelheim, O. Agam, A. Zabrodin, P. Wiegmann, Singularities of the Hele-Shaw Flow and Shock Waves in Dispersive Media, Phys. Rev. Lett. 95, 244504 (2005); nlin/0505027.
    18. E. Bettelheim, I.A. Gruzberg, A.W.W. Ludwig, P. Wiegmann, Stochastic Loewner evolution for conformal field theories with Lie-group symmetries, Phys. Rev. Lett. 95, 251601 (2005); hep-th/0503013.
    19. А.А. Абрикосов, Б.Л. Альтшулер, В.Г. Вакс, А.А. Варламов, П.Б. Вигман, Л.П. Горьков, Л.И. Глазман, И.Е. Дзялошинский, К.Б. Ефетов, Л.Б. Иоффе, Ю.Н. Овчинников, Д.Е. Хмельницкий, Памяти Анатолия Ивановича Ларкина, Успехи физ. наук, 175 (9), 1011-1012 (2005) [A.A. Abrikosov, B.L. Al’tshuler, V.G. Vaks, A.A. Varlamov, P.B. Wigman, L.P. Gor’kov, L.I. Glazman, I.E. Dzyaloshinskii, K.B. Efetov, L.B. Ioffe, Yu.N. Ovchinnikov, D.E. Khmel’nitskii, In memory of Anatolii Ivanovich Larkin, Phys.-Usp. 48(9), 969-970 (2005)], WoS: 000234905700010.
    20. R. Teodorescu, E. Bettelheim, O. Agam, A. Zabrodin, P. Wiegmann, Semiclassical evolution of the spectral curve in the normal random matrix ensemble as Whitham hierarchy, Nucl. Phys. B 700(1-3), 521-532 (2004); hep-th/0407017.
    21. I. Krichever, M. Mineev-Weinstein, P. Wiegmann, A. Zabrodin, Laplacian growth and Whitham equations of soliton theory, Physica D 198 (1-2), 1-28 (2004); nlin/0311005.
    22. P. Wiegmann, A. Zabrodin, Large scale correlations in normal non-Hermitian matrix ensembles, J. Phys. A 36(12), 3411-3424 (2003); hep-th/0210159.
    23. P. Wiegmann, A. Zabrodin, Large N expansion for normal and complex matrix ensembles, hep-th/0309253.
    24. A. Marshakov, P. Wiegmann, A. Zabrodin, Integrable structure of the Dirichlet boundary problem in two dimensions, Commun. Math. Phys., 227 (1), 131-153 (2002); hep-th/0109048.
    25. O. Agam, E. Bettelheim, P. Wiegmann, A. Zabrodin, Viscous fingering and the shape of an electronic droplet in the quantum Hall regime, Phys. Rev. Lett. 88, 236801 (2002); cond-mat/0111333.
    26. P. Wiegmann, Aharonov-Bohm Effect in the Quantum Hall Regime and fingering instability, In: Statistical Field Theories, pp. 337-349, A. Cappelli and G. Mussardo (eds.), 2002 Kluwer Academic Publishers; cond-mat/0204254.
    27. A.G. Abanov, P.B. Wiegmann, On the correspondence between fermionic number and statistics of solitons, J. High Energy Phys., 0110, 030 (2001); hep-th/0105213.
    28. A. Boyarsky, A. Marshakov, O. Ruchayskiy, P. Wiegmann, A. Zabrodin, Associativity equations in dispersionless integrable hierarchies, Phys. Lett. B 515 (3-4), 483-492 (2001); hep-th/0105260.
    29. A.G. Abanov, P.B. Wiegmann, Chiral nonlinear \sigma models as models for topological superconductivity, Phys. Rev. Lett. 86 (7), 1319-1322 (2001); hep-th/0006157.
    30. I.K. Kostov, I. Krichever, M. Mineev-Weinstein, P.B. Wiegmann, A. Zabrodin, The τ-function for analytic curves, MSRI Publ., Vol. 40, 285-299 (2001) [Random Matrix Models and Their Applications, Ed. by P.Bleher, A.Its. Cambridge University Press, 2001, v+438 pp. ISBN: 0521802091]; hep-th/0005259.
    31. P.B. Wiegmann, A. Zabrodin, Conformal maps and integrable hierarchies, Commun. Math. Phys., 213 (3), 523-538 (2000); hep-th/9909147.
    32. A.G. Abanov, P.B. Wiegmann, Theta-terms in nonlinear sigma-models, Nucl. Phys. B 570 (3), 685-698 (2000); hep-th/9911025.
    33. M. Mineev-Weinstein, P.B. Wiegmann, A. Zabrodin, Integrable structure of interface dynamics, Phys. Rev. Lett. 84(22), 5106-5109 (2000); nlin/0001007.
    34. P.B. Wiegmann, Topological electronic liquids: Electronic physics of one dimension beyond the one spatial dimension, Phys. Rev. B 59(24), 15705-15728 (1999); cond-mat/9808004.
    35. P.B. Wiegmann, On the singular spectrum of the Almost Mathieu operator. Arithmetics and Cantor spectra of integrable models, Prog. Theor. Phys. Suppl. No 134, 171-181 (1999); hep-th/9909083.
    36. I. Krichever, P. Wiegmann, A. Zabrodin, Elliptic solutions to difference non-linear equations and related many-body problems, Commun. Math. Phys., 193 (2), 373-396 (1998); hep-th/9704090.
    37. A.G. Abanov, J.C. Talstra, P.B. Wiegmann, Hierarchical structure of Azbel-Hofstadter problem: Strings and loose ends of Bethe ansatz, Nucl. Phys. B 525 (3), 571-596 (1998); cond-mat/9711274.
    38. A.G. Abanov, P.B. Wiegmann, Tunneling in the topological mechanism of superconductivity, Phys. Rev. B 57(14), 8532-8548 (1998); cond-mat/9703157.
    39. A.G. Abanov, J.C. Talstra, P.B. Wiegmann, Asymptotically exact wave functions of the Harper equation, Phys. Rev. Lett. 81(10), 2112-2115 (1998); cond-mat/9803179.
    40. I. Krichever, O. Lipan, P. Wiegmann, A. Zabrodin, Quantum integrable models and discrete classical Hirota equations, Commun. Math. Phys., 188 (2), 267-304 (1997), WoS: A1997XZ88700002.
    41. P. Wiegmann, Bethe Ansatz and Classical Hirota Equation, Int. J. Mod. Phys. B 11 (1-2), 75-89 (1997); cond-mat/9610132.
    42. O. Lipan, P.B. Wiegmann, A. Zabrodin, Fusion rules for quantum transfer matrices as a dynamical system on Grassmann manifolds, Mod. Phys. Lett. A 12(19), 1369-1378 (1997); solv-int/9704015.
    43. A.G. Abanov, P.B. Wiegmann, Tunneling and orthogonality catastrophe in the topological mechanism of superconductivity, Phys. Rev. Lett. 78(21), 4103-4106 (1997); cond-mat/9701163.
    44. I. Krichever, O. Lipan, P. Wiegmann, A. Zabrodin, Quantum Integrable Systems and Elliptic Solutions of Classical Discrete Nonlinear Equations, In: Low-dimensional applications of quantum field theory. Dedicated to Claude Itzykson. Summer School, Cargèse, Corsica, France, July 11-29, 1995. Ed. Beaulieu, Laurent et al., New York, NY: Plenum Publishing Corporation. NATO ASI Ser., Ser. B, Phys. 362, 279-317 (1997). ISBN 0-306-45686-9; hep-th/9604080.
    45. H.C. Lee, P.B. Wiegmann, Coherent versus incoherent transport in layered doped Mott insulators, Phys. Rev. B 53(17), 11817-11824 (1996); cond-mat/9510173.
    46. P.B. Wiegmann, A.V. Zabrodin, Algebraization of difference eigenvalue equations related to $U_q(sl_2)$, Nucl. Phys. B 451 (3), 699-724 (1995); cond-mat/9501129.
    47. P.B. Wiegmann, Topological Mechanism of Superconductivity, Lect. Notes Phys., 456, 177-206 (1995) [Field Theory, Topology and Condensed Matter Physics, Hendrik B. Geyer (Ed.). Springer, xii,206 pp., ISBN 978-3-540-60138-8]; cond-mat/9504094.
    48. P.B. Wiegmann, A.V. Zabrodin, Quantum group and magnetic translations: Bethe ansatz solution for the Harper’s equation, Mod. Phys. Lett. B 8 (5), 311-318 (1994).
    49. P.B. Wiegmann, A.V. Zabrodin, Quantum group and magnetic translations Bethe ansatz for the Asbel-Hofstadter problem, Nucl. Phys. B 422 (3), 495-514 (1994); cond-mat/9312088.
    50. V.A. Fateev, V.A. Kazakov, P.B. Wiegmann, Principal chiral field at large N, Nucl. Phys. B 424 (3), 505-520 (1994); hep-th/9403099.
    51. P.B. Wiegmann, A.V. Zabrodin, Bethe-ansatz for the Bloch electron in magnetic field, Phys. Rev. Lett. 72(12), 1890-1893 (1994), WoS: A1994NB62200029.
    52. D.V. Khveshchenko, P.B. Wiegmann, Raman scattering and anomalous current algebra in Mott insulators, Phys. Rev. Lett. 73 (3), 500-503 (1994); cond-mat/9402034.
    53. V.A. Fateev, V.A. Kazakov, P.B. Wiegmann, Large-N chiral field in two dimensions, Phys. Rev. Lett. 73(13), 1750-1753 (1994).
    54. P.B. Wiegmann, A.V. Zabrodin, Quantum Group and Magnetic Translations: Bethe-Ansatz Solution for Bloch Electrons in a Magnetic Field, cond-mat/9310017.
    55. L.B. Ioffe, P. Wiegmann, Negative magnetoresistance of the normal state of the doped Mott insulator, Phys. Rev. B 45 (1), 519-522 (1992).
    56. P. Wiegmann, Topological Superconductivity, Prog. Theor. Phys. Suppl. No 107, 243-279 (1992).
    57. S.D. Drell, S.P. Kapitza, J. Trân Thanhvân, P. Wiegmann, Sakharov Remembered: A Tribute by Friends and Colleagues and Andrei Sakharov: Facets of a Life (Books review), Phys. Today, 45(9), 71 (1992).
    58. L.B. Ioffe, V. Kalmeyer, P.B. Wiegmann, Hall coefficient of the doped Mott insulator: A signature of parity violation, Phys. Rev. B 43 (1), 1219-1222 (1991).
    59. D.V. Khveshchenko, P.B. Wiegmann, Gauge theory of antiferromagnetism in two dimensions for large rank symmetry group, Mod. Phys. Lett. B 4 (1), 17-28 (1990).
    60. L.B. Ioffe, P.B. Wiegmann, Linear temperature dependence of resistivity as evidence of gauge interaction, Phys. Rev. Lett. 65 (5), 653-656 (1990), WoS: A1990DQ99700033.
    61. P.B. Wiegmann, Parity violation and superconductivity in two-dimensional correlated electronic systems, Phys. Rev. Lett. 65(16), 2070-2073 (1990).
    62. N.Yu. Reshetikhin, P. Wiegmann, Towards the classification od completely integrable quantum field theories (the Bethe-Anzatz associated with Dynkin diagrams and their automorphism), Adv. Ser. Math. Phys., 10 [Yang-Baxter Equation in Integrable Systems. Ed. by Michio Jimbo], 619-628, World Sci. Publ., River Edge, NJ, 1990, 728 pp. ISBN: 978-981-02-0120-3.
    63. D.V. Khveshchenko, P.B. Wiegmann, Effective action of antiferromagnetism in two dimensions: Parity violating ground state and Hall effect, Mod. Phys. Lett. B 3(18), 1383-1392 (1989).
    64. P.B. Wiegmann, Multivalued functionals and geometrical approach for quantization of relativistic particles and strings, Nucl. Phys. B 323 (2), 311-329 (1989).
    65. P.B. Wiegmann, Extrinsic geometry of superstrings, Nucl. Phys. B 323 (2), 330-336 (1989).
    66. D. Khveshchenko, P.B. Wiegmann, Physical realization of the parity anomaly and quantum hall effect, Phys. Lett. B 225 (3), 279-283 (1989).
    67. Y. Hasegawa, P. Lederer, T.M. Rice, P.B. Wiegmann, Theory of electronic diamagnetism in two-dimensional lattices, Phys. Rev. Lett. 63 (8), 907-910 (1989), WoS: A1989AL23100024.
    68. P.B. Wiegmann, On the gauge theory of antiferromagnetism in two dimensions: neutral fermions, quantum Hall effect and physical realization of the parity anomaly, Physica Scripta, T27, 160-165 (1989).
    69. I. Dzyaloshinskii, A. Polyakov, P. Wiegmann, Neutral fermions in paramagnetic insulators, Phys. Lett. A 127 (2), 112-114 (1988), WoS: A1988M467100015, Scopus: 2-s2.0-0001358906.
    70. P.B. Wiegmann, Superconductivity in strongly correlated electronic systems and confinement versus deconfinement phenomenon, Phys. Rev. Lett. 60 (9), 821-824 (1988), WoS: A1988M206000018.
    71. P.B. Wiegmann, Towards a gauge theory of strongly correlated electronic systems, Physica C 153-155(Pt.1), 103-108 (1988).
    72. E. Ogievetsky, N. Reshetikhin, P. Wiegmann, The principal chiral field in two dimensions on classical lie algebras: The Bethe-ansatz solution and factorized theory of scattering, Nucl. Phys. B 280, 45-96 (1987), WoS: A1987F601600004.
    73. N.Yu. Reshetikhin, P.B. Weigmann, Towards the classification of completely integrable quantum field theories (the Bethe-Ansatz associated with dynkin diagrams and their automorphisms), Phys. Lett. B 189 (1-2), 125-131 (1987).
    74. П.Б. Вигман, Высокотемпературная сверхпроводимость в керамических металлооксидах, Успехи физ. наук, 152 (4), 675-681 (1987) [P.B. Vigman, High-temperature superconductivity in metal-oxide ceramics, Sov. Phys. Usp. 30(8), 729-732 (1987)].
    75. P. Wiegmann, Exact solution of the non-linear σ-models, Helvetica Physica Acta, 59 (5), 907-908 (1986).
    76. E. Ogievetsky, P. Wiegmann, Factorized S-matrix and the Bethe ansatz for simple lie groups, Phys. Lett. B 168 (4), 360-366 (1986), WoS: A1986A800400012.
    77. A.M. Tsvelick, P.B. Wiegmann, Exact solution of the multichannel Kondo problem, scaling, and integrability, J. Stat. Phys., 38 (1-2), 125-147 (1985).
    78. П. ВигманБ, Точное решение О(3) -нелинейной \sigma-модели в двух измерениях, Письма в ЖЭТФ, 41 (2), 79-83 (1985) [P.B. Wiegmann, Exact solution of the O(3) nonlinear two-dimensional \sigma-model, JETP Lett., 41 (2), 95-100 (1985)].
    79. G.I. Japaridze, A.A. Nersesyan, P.B. Wiegmann, Exact results in the two-dimensional U(1)-symmetric Thirring model, Nucl. Phys. B 230 (4), 511-547 (1984).
    80. P.B. Wiegmann, On the theory of nonabelian goldstone bosons in two dimensions; exact solution of the SU(N) ⊗ SU(N) nonlinear σ model, Phys. Lett. B 141 (3-4), 217-222 (1984).
    81. A.M. Polyakov, P.B. Wiegmann, Goldstone fields in two dimensions with multivalued actions, Phys. Lett. B 141 (3-4), 223-228 (1984), WoS: A1984SY60500014, Scopus: 2-s2.0-0042287529.
    82. P. Wiegmann, Exact factorized S-matrix of the chiral field in two dimensions, Phys. Lett. B 142 (3), 173-176 (1984).
    83. A.M. Tsvelick, P.B. Wiegmann, Solution of then-channel Kondo problem (scaling and integrability), Z. Physik B 54 (3), 201-206 (1984), WoS: A1984SG73700003.
    84. П.Б. Вигман, Точное решение SU(N)-главного кирального поля в двух измерениях, Письма в ЖЭТФ, 39 (4), 180-183 (1984) [P.B. Wiegmann, Exact solution for the SU(/V) main chiral field in two dimensions, JETP Lett., 39 (4), 214-218 (1984)].
    85. A.M. Tsvelick, P.B. Wiegmann, Exact results in the theory of magnetic alloys, Adv. Physics, 32 (4), 453-713 (1983), WoS: A1983SJ07900001.
    86. P.B. Wiegmann, A.M. Tsvelick, Exact solution of the Anderson model: I, J. Phys. C 16(12), 2281-2319 (1983).
    87. A.M. Tsvelick, P.B. Wiegmann, Exact solution of the Anderson model. II. Thermodynamic properties at finite temperatures, J. Phys. C 16(12), 2321-2336 (1983).
    88. E. Ogievetski, A.M. Tsvelick, P.B. Wiegmann, Exact solution of the degenerate Anderson model, J. Phys. C 16(22), L797-L802 (1983).
    89. G.I. Japaridze, A.A. Nersesyan, P.B. Wiegmann, Crossover from the strong-coupling to the weak-coupling regime in the SU(2)-symmetric Thirring model, Phys. Lett. A 94 (6-7), 254-258 (1983).
    90. A. Polyakov, P.B. Wiegmann, Theory of nonabelian goldstone bosons in two dimensions, Phys. Lett. B 131 (1-3), 121-126 (1983), WoS: A1983RS12400027, Scopus: 2-s2.0-0010828156.
    91. G.I. Japaridze, A.A. Nersesyan, P.B. Wiegmann, Regularized Integrable Version of the One-Dimensional Quantum Sine-Gordon Model, Physica Scripta, 27 (1), 5-7 (1983).
    92. П.Б. Вигман, Е.И. Огиевецкий, A.M. Цвелик, Точное решение вырожденной модели Андерсона, Письма в ЖЭТФ, 37(12), 580-583 (1983) [P.B. Vigman, Ogievetskii, A.M. Tsvelik, Exact solution of the degenerate Anderson model, JETP Lett., 37(12), 692-696 (1983)].
    93. П.Б. Вигман, A.M. Цвелик, Решение проблемы Кондо для орбитального синглета, Письма в ЖЭТФ, 38(10), 489-493 (1983) [P.B. Wiegmann, A.M. Tsvelik, Solution of the Kondo problem for an orbital singlet, JETP Lett., 38(10), 591-596 (1983)].
    94. A.M. Tsvelick, P.B. Wiegmann, Exact solution of the degenerate exchange model (Kondo problem for alloys with rare earth impurities), J. Phys. C 15 (8), 1707-1712 (1982).
    95. V.M. Filyov, A.M. Tsvelick, P.B. Wiegmann, Low-temperature thernodynamics of the Anderson model. I. Symmetric case, Phys. Lett. A 89 (3), 157-162 (1982).
    96. A.M. Tsvelick, P.B. Wiegmann, Low-temperature properties of the asymmetric Anderson model (exact solution) II, Phys. Lett. A 89 (7), 368-372 (1982).
    97. П.Б. Вигман, В.М. Филев, A.M. Цвелик, Решение симметричной модели Андерсона при T=0, Письма в ЖЭТФ, 35 (2), 77-81 (1982) [P.B. Vigman, V.M. Filev, A.M. Tsvelik, Solution of the symmetric Anderson model at T=0, JETP Lett., 35 (2), 92-96 (1982)].
    98. П.Б. Вигман, A.M. Цвелик, Решение асимметричной модели Андерсона при Т= 0, Письма в ЖЭТФ, 35 (3), 100-103 (1982) [P.B. Vigman, A.M. Tsvelik, Solution of the Anderson asymmetric model at T= 0, JETP Lett., 35 (3), 120-124 (1982)].
    99. П.Б. Вигман, Точное решение проблемы Кондо, Успехи физ. наук, 136 (3), 533-535 (1982) [B.Wi. Pavelgman, Exact solution of the Kondo problem, Sov. Phys. Usp. 25(3), 183-184 (1982)].
    100. P.B. Wiegmann, Exact solution of the s-d exchange model (Kondo problem), J. Phys. C 14(10),1463-1478 (1981).
    101. V.M. Filyov, A.M. Tzvelik, P.B. Wiegmann, Thermodynamics of the s-d exchange model (Kondo problem), Phys. Lett. A 81 (2-3), 175-178 (1981).
    102. V.A. Fateev, P.B. Wiegmann, The exact solution of the s-d exchange model with arbitrary impurity spin S (Kondo problem), Phys. Lett. A 81 (2-3), 179-184 (1981).
    103. V.A. Fateev, P.B. Wiegmann, Thermodynamics of the s-d Exchange Model with Arbitrary Impurity Spin (Kondo Problem), Phys. Rev. Lett. 46(24), 1595-1598 (1981).
    104. P.B. Wiegmann, A.M. Tsvelick, Exact solution of Kondo problem for alloys with rare-earth impurities, Physica B+C 107 (1-3), 379-380 (1981).
    105. V.M. Filyov, P.B. Wiegmann, A method for solving the Kondo problem, Phys. Lett. A 76 (3-4), 283-286 (1980).
    106. P.B. Wiegmann, Towards an exact solution of the Anderson model, Phys. Lett. A 80 (2-3), 163-167 (1980).
    107. П.Б. Вигман, Точное решение s -d обменной модели при Т = 0, Письма в ЖЭТФ, 31 (7), 392-398 (1980) [P.B. Vigman, Exact solution of s-d exchange model at T = 0, JETP Lett., 31 (7), 364-370 (1980)].
    108. P.B. Wiegmann, One-dimensional Fermi system and plane xy model, J. Phys. C 11 (8), 1583-1598 (1978).
    109. П.Б. Вигман, А.М. Финкельштейн, Модель резонансного уровня в проблеме Кондо, ЖЭТФ, 75 (1), 204-216 (1978) [P.B. Vigman, A.M. Finkel’shtein, Resonant-level model in the Kondo problem, Sov. Phys. JETP 48(1), 102-107 (1978)].
    110. П.Б. Вигман, А.И. Ларкин, Масса частиц в одномерной модели с четырехфермионным взаимодействием, ЖЭТФ, 72 (3), 857-864 (1977) [P.B. Vigman, A.I. Larkin, Mass of particles in a one-dimensional model with four-fermion interaction, Sov. Phys. JETP 45(3), 448-451 (1977)].
    111. П.Б. Вигман, А.И. Ларкин, В.М. Филев, Изолированная точка на кривой перехода первого рода, ЖЭТФ, 68 (5), 1883-1893 (1975) [P.B. Vigman, A.I. Larkin, V.M. Filev, Isolated point on a first-order transition curve, Sov. Phys. JETP 41(5), 944-948 (1975)].
    112. П.Б. Вигман, В.М. Филев, Фазовый переход холестерического жидкого кристалла в смектический, ЖЭТФ, 69 (4), 1466-1472 (1975) [P.B. Vigman, V.M. Filev, Phase transition of a cholesteric liquid crystal to a smectic, Sov. Phys. JETP 42(4), 747-750 (1975)].
    113. П.Б. Вигман, А.И. Ларкин, В.М. Филёв, Спонтанное нарушение симметрии первого рода, Ядерная физика, 22(6), 1255-1264 (1975) [P.B. Vigman, A.I. Larkin, V.M. Filëv, Spontaneous symmetry breaking of the first kind, Sov. J. Nucl. Phys., 22 (6), 652-656 (1975)].