Biography:Evgeny Fateev

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Evgeny Fateev
Фатеев Евгений Геннадьевич
Born (1958-07-02) 2 July 1958 (age 66)
Sverdlovsk Oblast, Russian Federation, Soviet Union
Alma materPhysics and Technology department of Ural State Technical University Ekaterinburg
Scientific career
InstitutionsInstitute of Mechanics UB RAS
Websitehttp://www.udman.ru/iam/en/user/fateev-eg

Evgeny Fateev (Russian: Евгений Геннадьевич Фатеев) is a Russian physicist and astrophysicist. He was born in the village of Kolchedan, Sverdlovskaya Oblast, Russia to his father Gennadii Sergeievich Fateev ( Геннадий Сергеевич Фатеев) and mother Malinina Valentina Grigorevna (Малинина Валентина Григорьевна). In 1985, Fateev received his master's degree in physics. In 1992, he received a Ph.D. in physics and mathematics from the Department of Physics and Technology at Ural State Technical University.

Biography

As a schoolboy, he created a working model of his first emission engine based on cold emission of electrons (unpatented). The engine was not quantum, as energy was supplied artificially to the electrons.

Research activity

Fateev developed the concept of quantum motors which was based on the Casimir force of expulsion.[1][2]

In 2014 he constructed a cosmology with the system of variable physical "constants".[3] This cosmology does not include any expansion of the Universe. From the model, the self-consistent system of fundamental variable "Physical constants" follows naturally, making the idea of the anthropic principle in cosmology unnecessary.

His early works are devoted to exotic physical phenomena, such as the Bridgeman explosive effect,[4] electromagnetic supersensitivity of the chains of dipole oscillators[5] and heterogeneous systems.

Fateev also found the explosive instability of ice,[6][7] and its mixtures[8] at high inhomogeneous pressures. In 2001 – 2006, he showed[9] (before the Cassini spacecraft made its flyby of Saturn's moons) the possibility of explosive release of gas and ice dust on Jupiter’s and Saturn’s moons (such icy moons as Europe, Ganymede, and Enceladus).[10]

Awards

  • Diploma of the Udmurt Republic (2010).
  • Honorary Diploma of the Government of the Udmurt Republic (2005).

Publications

  1. Fateev, E. G. (2015). "Casimir EMF". arXiv:1502.03058 [physics.gen-ph].
  2. Fateev, E. G. (2013). "Quantum motor and future". arXiv:1301.4678 [physics.gen-ph].
  3. Fateev, E. G. (2013). "Quantum flights". arXiv:1309.3108 [physics.gen-ph]. Cite has empty unknown parameter: |1= (help)
  4. Fateev, E. G. (2012). "Casimir force of expulsion". arXiv:1208.0303 [quant-ph]. Cite has empty unknown parameter: |1= (help)
  5. Fateev, E. G. (2014). "Cosmology with the system of varying constants". deposited by VINITI RAS № 267-B2014: 1–27. https://www.researchgate.net/publication/267569783. 
  6. Fateev, E. G. (2008). "Explosive instability of water -ammonium ice". JETP Letters 88: 240–243. doi:10.1134/S0021364008160030. 
  7. Fateev, E. G. (2006). "Do Explosive Ice Ejections Occur on Jupiter's and Saturn's". Solar System Research (Springer) 40 (5): 400–411. doi:10.1134/S0038094606050054. 
  8. Fateev, E. G. (2002). "Supersensitivity in a chain of closely spaced electric dipoles with variable moments". Phys. Rev. E 65 (2): 021403. doi:10.1103/PhysRevE.65.021403. 
  9. Fateev, E. G. (1997). "Shift of the dip in the ultralow-frequency electric excitation spectrum of the Bridgman effect". JETP Letters 65 (12): 919–924. doi:10.1134/1.567450. 

External links

References

  1. Quantum motor and future - arXiv:1301.4678, pp. 1-4, 2013
  2. Casimir force of expulsion - arXiv:1208.0303 [quant-ph]], pp. 1-4, 1 Aug 2012
  3. Cosmology with the system of varying constants - deposited by VINITI RAS № 267-B2014, p.10
  4. Shift of the dip in the ultra low-frequency electric excitation spectrum of the Bridgman effect - JETP Letters, vol. 65, issue 12, pp. 919-924, 1997
  5. Supersensitivity in a chain of closely spaced electric dipoles with variable moments // Phys. Rev. E — 2002. — Vol. 65. — P. 021403.
  6. Explosive Ice Instability // JETP Letters, vol. 73, issue 8, pp. 432-435, 2001.
  7. Video showing the explosive instability of ice - (0.5 Мб на YouTube).
  8. Explosive instability of water - ammonium ice // JETP Letters, vol. 88, issue 4, pp. 240-243, 2008.
  9. Do Explosive Ice Ejections Occur on Jupiter's and Saturn's Satellites // Solar System Research, vol. 40, issue 5, pp. 400–411, 2006.
  10. Model of explosive eruptions of water vapor and dust on icy satellites // Solar System Research, vol. 42, issue 2, pp. 124-138, 2008.