Zobrazeno 1 - 10
of 58
pro vyhledávání: '"Egorov, A. O."'
Autor:
Egorov, Vadim O., Volobuev, Igor P.
Publikováno v:
Phys. Rev. D 100, 033004 (2019)
We consider a novel quantum field-theoretical approach to the description of processes passing at finite space-time intervals based on the Feynman diagram technique in the coordinate representation. The most known processes of this type are neutrino
Externí odkaz:
http://arxiv.org/abs/1902.03602
Autor:
Egorov, Vadim O., Volobuev, Igor P.
The oscillating probabilities of lepton flavor changing neutrino oscillation processes, where neutrinos are detected by charged-current and neutral-current interactions, are calculated in a quantum field-theoretical approach to neutrino oscillations
Externí odkaz:
http://arxiv.org/abs/1712.04335
Autor:
Egorov, Vadim O., Volobuev, Igor P.
Publikováno v:
Phys. Rev. D 97, 093002 (2018)
It is shown that neutrino oscillation processes can be consistently described in the framework of quantum field theory. Namely, the oscillating electron survival probabilities in experiments with neutrino detection by charged-current and neutral-curr
Externí odkaz:
http://arxiv.org/abs/1709.09915
Akademický článek
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Autor:
Volobuev, I. P., Egorov, V. O.
Publikováno v:
Physics of Particles & Nuclei Letters; Jun2023, Vol. 20 Issue 3, p482-485, 4p
Publikováno v:
Physics of Particles & Nuclei Letters; Jun2023, Vol. 20 Issue 3, p272-275, 4p
Autor:
Egorov, D. O.
Publikováno v:
Regional Research of Russia; Jun2023, Vol. 13 Issue 2, p328-339, 12p
Autor:
Gordon, I. E. (I. E.), Rothman, L. S. (L. S.), Hargreaves, R. J. (R. J.), Hashemi, R. (R.), Karlovets, E. V. (E., V), Skinner, F. M. (F. M.), Conway, E. K. (E. K.), Hill, C. (C.), Kochanov, R. V. (R., V), Tan, Y. (Y.), Wcislo, P. (P.), Finenko, A. A. (A. A.), Nelson, K. (K.), Bernath, P. F. (P. F.), Birk, M. (M.), Boudon, V. (V), Campargue, A. (A.), Chance, K. V. (K., V), Coustenis, A. (A.), Drouin, B. J. (B. J.), Flaud, J.-M. (J-M), Gamache, R. R. (R. R.), Hodges, J. T. (J. T.), Jacquemart, D. (D.), Mlawer, E. J. (E. J.), Nikitin, A. V. (A., V), Perevalov, V. I. (V., I), Rotger, M. (M.), Tennyson, J. (J.), Toon, G. C. (G. C.), Tran, H. (H.), Tyuterev, V. G. (V. G.), Adkins, E. M. (E. M.), Baker, A. (A.), Barbe, A. (A.), Cane, E. (E.), Csaszar, A. G. (A. G.), Dudaryonok, A. (A.), Egorov, O. (O.), Fleisher, A. J. (A. J.), Fleurbaey, H. (H.), Foltynowicz, A. (A.), Furtenbacher, T. (T.), Harrison, J. J. (J. J.), Hartmann, J.-M. (J-M), Horneman, V.-M. (V-M), Huang, X. (X.), Karman, T. (T.), Karns, J. (J.), Kassi, S. (S.), Kleiner, I. (I), Kofman, V. (V), Kwabia-Tchana, F. (F.), Lavrentieva, N. N. (N. N.), Lee, T. J. (T. J.), Long, D. A. (D. A.), Lukashevskaya, A. A. (A. A.), Lyulin, O. M. (O. M.), Makhnev, V. Y. (V. Yu), Matt, W. (W.), Massie, S. T. (S. T.), Melosso, M. (M.), Mikhailenko, S. N. (S. N.), Mondelain, D. (D.), Mueller, H. S. (H. S. P.), Naumenko, O. V. (O., V), Perrin, A. (A.), Polyansky, O. L. (O. L.), Raddaoui, E. (E.), Raston, P. L. (P. L.), Reed, Z. D. (Z. D.), Rey, M. (M.), Richard, C. (C.), Tobias, R. (R.), Sadiek, I. (I), Schwenke, D. W. (D. W.), Starikova, E. (E.), Sung, K. (K.), Tamassia, F. (F.), Tashkun, S. A. (S. A.), Vander Auwera, J. (J.), Vasilenko, I. A. (I. A.), Vigasin, A. A. (A. A.), Villanueva, G. L. (G. L.), Vispoel, B. (B.), Wagner, G. (G.), Yachmenev, A. (A.), Yurchenko, S. N. (S. N.)
Publikováno v:
Journal of Quantitative Spectroscopy and Radiative Transfer. 2022. Vol. 277. P. 107949 (1-82)
Journal of quantitative spectroscopy & radiative transfer 277, 107949 (2021). doi:10.1016/j.jqsrt.2021.107949
Journal of Quantitative Spectroscopy and Radiative Transfer
Journal of Quantitative Spectroscopy and Radiative Transfer, Elsevier, 2021, pp.107949. ⟨10.1016/j.jqsrt.2021.107949⟩
Gordon, I E, Rothman, L S, Hargreaves, R J, Hashemi, R, Karlovets, E V, Skinner, F M, Conway, E K, Hill, C, Kochanov, R V, Tan, Y, Wcislo, P, Finenko, A A, Nelson, K, Bernath, P F, Birk, M, Boudon, V, Campargue, A, Chance, K V, Coustenis, A, Drouin, B J, Flaud, J-M, Gamache, R, Hodges, J T, Jacquemart, D, Mlawer, E J, Nikitin, A, Perevalov, V I, Rotger, M, Tennyson, J, Toon, G C, Tran, H, Tyuterev, V G, Adkins, E M, Baker, A, Barbe, A, Canè, E, Császár, A G, Dudaryonok, A, Egorov, O, Fleisher, A J, Fleurbaey, M, Foltynowicz, A, Furtenbacher, T, Harrison, J J, Hartmann, J M, Horneman, V M, Huang, X, Karman, T, Karns, J, Kassi, S, Kleiner, I, Kofman, V, Kwabia–Tchana, F, Lavrentieva, N N, Lee, T J, Long, D A, Lukashevskaya, A A, Lyulin, O M, Makhnev, V Y, Matt, W, Massie, S T, Melosso, M, Mikhailenko, S N, Mondelain, D, Müller, H S P, Naumenko, O V, Perrin, A, Polyansky, O L, Raddaoui, E, Raston, P L, Reed, Z D, Rey, M, Richard, C, Tóbiás, R, Sadiek, I, Schwenke, D W, Starikova, E, Sung, K, Tamassia, F, Tashkun, S A, Vander Auwera, J, Vasilenko, I A, Vigasin, A A, Villanueva, G L, Vispoel, B, Wagner, G, Yachmenev, A & Yurchenko, S N 2022, ' The HITRAN2020 molecular spectroscopic database ', Journal of Quantitative Spectroscopy and Radiative Transfer, vol. 277, 107949 . https://doi.org/10.1016/j.jqsrt.2021.107949
Journal of quantitative spectroscopy & radiative transfer 277, 107949 (2021). doi:10.1016/j.jqsrt.2021.107949
Journal of Quantitative Spectroscopy and Radiative Transfer
Journal of Quantitative Spectroscopy and Radiative Transfer, Elsevier, 2021, pp.107949. ⟨10.1016/j.jqsrt.2021.107949⟩
Gordon, I E, Rothman, L S, Hargreaves, R J, Hashemi, R, Karlovets, E V, Skinner, F M, Conway, E K, Hill, C, Kochanov, R V, Tan, Y, Wcislo, P, Finenko, A A, Nelson, K, Bernath, P F, Birk, M, Boudon, V, Campargue, A, Chance, K V, Coustenis, A, Drouin, B J, Flaud, J-M, Gamache, R, Hodges, J T, Jacquemart, D, Mlawer, E J, Nikitin, A, Perevalov, V I, Rotger, M, Tennyson, J, Toon, G C, Tran, H, Tyuterev, V G, Adkins, E M, Baker, A, Barbe, A, Canè, E, Császár, A G, Dudaryonok, A, Egorov, O, Fleisher, A J, Fleurbaey, M, Foltynowicz, A, Furtenbacher, T, Harrison, J J, Hartmann, J M, Horneman, V M, Huang, X, Karman, T, Karns, J, Kassi, S, Kleiner, I, Kofman, V, Kwabia–Tchana, F, Lavrentieva, N N, Lee, T J, Long, D A, Lukashevskaya, A A, Lyulin, O M, Makhnev, V Y, Matt, W, Massie, S T, Melosso, M, Mikhailenko, S N, Mondelain, D, Müller, H S P, Naumenko, O V, Perrin, A, Polyansky, O L, Raddaoui, E, Raston, P L, Reed, Z D, Rey, M, Richard, C, Tóbiás, R, Sadiek, I, Schwenke, D W, Starikova, E, Sung, K, Tamassia, F, Tashkun, S A, Vander Auwera, J, Vasilenko, I A, Vigasin, A A, Villanueva, G L, Vispoel, B, Wagner, G, Yachmenev, A & Yurchenko, S N 2022, ' The HITRAN2020 molecular spectroscopic database ', Journal of Quantitative Spectroscopy and Radiative Transfer, vol. 277, 107949 . https://doi.org/10.1016/j.jqsrt.2021.107949
The HITRAN database is a compilation of molecular spectroscopic parameters. It was established in the early 1970s and is used by various computer codes to predict and simulate the transmission and emission of light in gaseous media (with an emphasis
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::adfaec27de317e1b81b7b67e9086b364
https://vital.lib.tsu.ru/vital/access/manager/Repository/koha:000927115
https://vital.lib.tsu.ru/vital/access/manager/Repository/koha:000927115
Autor:
Egorov, V. O.1,2 (AUTHOR) egorov@theory.sinp.msu.ru
Publikováno v:
Physics of Atomic Nuclei. Dec2019, Vol. 82 Issue 12, p1631-1634. 4p. 2 Graphs.
Neutrino Oscillation Processes with a Change of Lepton Flavor in Quantum Field-Theoretical Approach.
Autor:
Volobuev, I. P.1 (AUTHOR), Egorov, V. O.1,2 (AUTHOR) egorov@theory.sinp.msu.ru
Publikováno v:
Journal of Experimental & Theoretical Physics. May2019, Vol. 128 Issue 5, p713-719. 7p.