Vladimir Belinski

Vladimir Belinski
Владимир Белинский
Belinski in 2014
Born (1941-03-26) 26 March 1941 (age 83)
NationalityRussian
Alma materMoscow Engineering Physics Institute (MEPhI) - university
Landau Institute for Theoretical Physics - PhD, D.Sc.
Known forBKL conjecture
Gravitational solitons
Inflationary attractor
Scientific career
FieldsPhysics

Vladimir Alekseevich Belinski (last name is also spelled Belinsky, Russian: Владимир Алексеевич Белинский; born 26 March 1941)[1] is a Russian and Italian theoretical physicist involved in research in cosmology and general relativity. He worked at Landau Institute for Theoretical Physics from 1968 to 1989 and got his Habilitation (Doctor of Sciences) degree at this Institute in 1980.[2] As of 2016, he holds the permanent professor position at International Network of the Centers for Relativistic Astrophysics (ICRANet), Italy.

Belinski contributed to the editing of some chapters in Landau and Lifshitz's course of theoretical physics for volume 2. One of his most notable scientific contributions is BKL conjecture (Belinski—KhalatnikovLifshitz conjecture) on the behavior of generic solutions of Einstein field equations near a cosmological singularity.[3][4][5] He co-invented the Belinski-Zakharov transform in 1978 showing that black holes are a special example of gravitational solitons.[6] Another his notable result (obtained in 1985—1987 together with L. Grischuk, I. Khalatnikov and Ya. Zeldovich) is discovery of the "Inflationary Attractor". This is the unique solution of the gravitational equations with massive scalar field which solution has maximal degree of inflation and attract the majority of all other solutions forcing them to have the prolonged inflationary stages.[7][8]

  1. ^ "Vladimir Belinski". International Center for Relativistic Astrophysics.
  2. ^ "Диссертации, подготовленные или защищенные в ИТФ им. Л.Д. Ландау".
  3. ^ Belinski, V.; Khalatnikov, I.; Lifshitz, E. (1970). "Oscillatory Approach to a Singular Point in the Relativistic Cosmology". Adv. Phys. 19 (80): 525. Bibcode:1970AdPhy..19..525B. doi:10.1080/00018737000101171.
  4. ^ Belinski, V.; Khalatnikov, I.; Lifshitz, E. (1982). "A general solution of the Einstein equations with a time singularity". Adv. Phys. 31 (6): 639. Bibcode:1982AdPhy..31..639B. doi:10.1080/00018738200101428.
  5. ^ Belinski, V. (2014). "On the cosmological singularity". International Journal of Modern Physics D. 23 (7): 1430016–215. arXiv:1404.3864. Bibcode:2014IJMPD..2330016B. doi:10.1142/S021827181430016X.
  6. ^ Belinski, Vladimir A.; Verdaguer, Enric (2001). Gravitational Solitons. Cambridge University Press. ISBN 978-0-521-80586-5.
  7. ^ Belinski, V.; Grishchuk, L.; Khalatnikov, I.; Zeldovich, Y. (1985). "Inflationary Stages in Cosmological Models with a Scalar Field". Phys. Lett. B. 155 (4): 232. Bibcode:1985PhLB..155..232B. doi:10.1016/0370-2693(85)90644-6.
    Belinski, V.; Grishchuk, L.; Khalatnikov, I.; Zeldovich, Y. (1985). "Inflationary Stages in Cosmological Models with a Scalar Field". Sov. Phys. JETP. 62: 195. Bibcode:1985ZhETF..89..346B.
  8. ^ Belinski, V.; Khalatnikov, I. (1987). "On the generality of inflationary solutions in cosmological models with a scalar field". Sov. Phys. JETP. 66: 441. Bibcode:1987ZhETF..93..784B.