Victor Borisov

Victor Vasil'evich Borisov (Russian: Виктор Васильевич Борисов) (31 October 1937 – 5 December 2013) was a Russian physicist and mathematician who contributed to the theory of wave motion, in particular to time domain electromagnetics and localized waves.

Victor Vasil'evich Borisov
Born(1937-10-31)31 October 1937
Died5 December 2013(2013-12-05) (aged 76)
NationalityRussian
Alma materSt. Petersburg State University
Known forDevelopment of foundations of the spacetime triangle diagram (STTD) technique
Scientific career
FieldsPhysics, Mathematics
InstitutionsSt. Petersburg State University

Under his guidance, Vladimir Smirnov's approach to solving the initial-boundary value problem to the hyperbolic partial differential equations (in particular, the wave equation)[1] was developed into the spacetime triangle diagram (STTD) technique.

Victor Borisov's findings and ideas are summarized in two monographs edited by Leningrad State University.[2][3]

Particular discoveries

  • 1970s Description of the essentially non-sinusoidal fields emanated by perfectly conducting sources at motion.[4][5]
  • 1980 Transformation of electromagnetic signals at abrupt variation of medium properties,[6] including guiding systems.[7]
  • 1993 Characterization of electromagnetic fields accompanying propagation of spike pulses of hard radiation in media.[8]
  • 1994 General modal solutions for subluminal and luminal sources distributed on a circle.[9]
  • 2000 Constructing a new class of relatively undistorted progressing waves.[13]
  • 2005 Description of several specific phenomena occurring in waves produced by a travelling source pulse with high-frequency filling.[14]

References

  1. V.I. Smirnov, The solution to a problem with limits for the equation of waves in the case of the circle and the sphere. Dokl. Akad. Nauk SSSR [Comptes Rendus de l’Académie des Sciences de l'URSS], 14(1), 13–16 (1937).
  2. V.V. Borisov, Nonsteady-State Electromagnetic Waves. Leningrad: Leningrad State University Press (1987, in Russian).
  3. V.V. Borisov, Nonsteady-State Fields in Waveguides. Leningrad: Leningrad State University Press (1991, in Russian).
  4. V.V. Borisov, Electromagnetic-field of a rotating completely-conducting ball. Zhurnal Tekhnicheskoi Fiziki 45(11), 2257–2266 (1975), WOS:A1975AW87400001
  5. V.V. Borisov, Electromagnetic-field accompanying motion of an ideally conducting plate. Vestnik Leningradskogo Universiteta Seriya Fizika Khimiya 2, 71–74 (1976), WOS:A1976CB24300012.
  6. V.V. Borisov, Transformation of an electromagnetic signal in a sharp variation of medium properties with time. Izvestiya Vysshikh Uchebnykh Zavedenii Radiofizika 23(12), 1495–1506 (1980), WOS:A1980LH40800013.
  7. V.V. Borisov, Electromagnetic-fields in a cylindrical wave-guide filled by an ionized-gas moving with a constant velocity. Izvestiya Vysshikh Uchebnykh Zavedenii Radiofizika 23(12), 1484–1494 (1980), WOS:A1980LH40800012.
  8. V.V. Borisov & A.B. Utkin, Electromagnetic fields produced by the spike pulse of hard radiation. Journal of Physics A: Mathematical and General 26(16), 4081–4085 (1993), doi:10.1088/0305-4470/26/16/023.
  9. V.V. Borisov & I.I. Simonenko, Transient waves generated by a source on a circle. Journal of Physics A: Mathematical and General 27(18), 6243–6252 (1994), doi:10.1088/0305-4470/27/18/032.
  10. V.V. Borisov & A.B. Utkin, On formation of focus wave modes. Journal of Physics A: Mathematical and General 27(7), 2587–2591 (1994), doi:10.1088/0305-4470/27/7/033
  11. V.V. Borisov & A.B. Utkin, Focus wave modes in noncollisional plasma. Canadian Journal of Physics 72(9–10), 647–650 (1994), doi:10.1139/p94-083
  12. V.V. Borisov & A.B. Utkin, Focus wave modes in conducting media. Canadian Journal of Physics 72(9–10), 725–730 (1994), doi:10.1139/p94-083
  13. V.V. Borisov & A.P. Kiselev A new class of relatively undistorted progressing waves. Applied Mathematics Letters 13(4), 83–86 (2000), doi:10.1016/S0893-9659(99)00213-X.
  14. V.V. Borisov, N.M. Reutova, & A.B. Utkin, Electromagnetic waves produced by a travelling current pulse with high-frequency filling. Journal of Physics A: Mathematical and General, 38(10), 2225–2240 (2005), doi:10.1088/0305-4470/38/10/012.
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