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Features of the Zeeman Splitting and G-Factors of 2p5f Configuration Levels of Carbon Atom. / Anisimova, Galina Pavlovna; Mashek, Igor Cheslavovich; Dolmatova, Olga Aleksandrovna; Gorbenko, Anna Petrovna; Semenov, Robert Ivanovich; Tchoffo, Martin; Tsygankova, Galina Aleksandrovna.

в: American Journal of Modern Physics, Том 3, № 6, 2014, стр. 218-223.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Anisimova, GP, Mashek, IC, Dolmatova, OA, Gorbenko, AP, Semenov, RI, Tchoffo, M & Tsygankova, GA 2014, 'Features of the Zeeman Splitting and G-Factors of 2p5f Configuration Levels of Carbon Atom', American Journal of Modern Physics, Том. 3, № 6, стр. 218-223. https://doi.org/10.11648/j.ajmp.20140306.1, https://doi.org/10.11648/j.ajmp.20140306.12

APA

Anisimova, G. P., Mashek, I. C., Dolmatova, O. A., Gorbenko, A. P., Semenov, R. I., Tchoffo, M., & Tsygankova, G. A. (2014). Features of the Zeeman Splitting and G-Factors of 2p5f Configuration Levels of Carbon Atom. American Journal of Modern Physics, 3(6), 218-223. https://doi.org/10.11648/j.ajmp.20140306.1, https://doi.org/10.11648/j.ajmp.20140306.12

Vancouver

Anisimova GP, Mashek IC, Dolmatova OA, Gorbenko AP, Semenov RI, Tchoffo M и пр. Features of the Zeeman Splitting and G-Factors of 2p5f Configuration Levels of Carbon Atom. American Journal of Modern Physics. 2014;3(6):218-223. https://doi.org/10.11648/j.ajmp.20140306.1, https://doi.org/10.11648/j.ajmp.20140306.12

Author

Anisimova, Galina Pavlovna ; Mashek, Igor Cheslavovich ; Dolmatova, Olga Aleksandrovna ; Gorbenko, Anna Petrovna ; Semenov, Robert Ivanovich ; Tchoffo, Martin ; Tsygankova, Galina Aleksandrovna. / Features of the Zeeman Splitting and G-Factors of 2p5f Configuration Levels of Carbon Atom. в: American Journal of Modern Physics. 2014 ; Том 3, № 6. стр. 218-223.

BibTeX

@article{33596033939e44eb93fa4b7b0ff4d6a7,
title = "Features of the Zeeman Splitting and G-Factors of 2p5f Configuration Levels of Carbon Atom",
abstract = "The gyromagnetic ratios of levels (the g-factors) – are one of the most important characteristics of atoms. There are no corresponding experimental data in the literature for npn`l configurations of carbon atom. That is why the theoretical study of the fine and the Zeeman structures for the determination of the g-factors is ongoing. All the calculations are effected in one configuration approximation, with the energy operator matrix, in which the maximum possible number of interactions is taken into account, including the magnetic, spin-orbit (own and other) and spin-spin interactions. The fine structures were studied in three approximations (LS, LK, jK) for the establishment of the character of the coupling in 2p5f C I configuration. During the study of Zeeman splitting (except the g-factors) features of it were determined: the fields of crossings and anticrossings of magnetic components. In all steps of calculations the numerical digitalization of corresponding energy operator matrices were effected, e.g. t",
author = "Anisimova, {Galina Pavlovna} and Mashek, {Igor Cheslavovich} and Dolmatova, {Olga Aleksandrovna} and Gorbenko, {Anna Petrovna} and Semenov, {Robert Ivanovich} and Martin Tchoffo and Tsygankova, {Galina Aleksandrovna}",
year = "2014",
doi = "10.11648/j.ajmp.20140306.1",
language = "English",
volume = "3",
pages = "218--223",
journal = "American Journal of Modern Physics",
issn = "2326-8867",
publisher = "Science Publishing Group",
number = "6",

}

RIS

TY - JOUR

T1 - Features of the Zeeman Splitting and G-Factors of 2p5f Configuration Levels of Carbon Atom

AU - Anisimova, Galina Pavlovna

AU - Mashek, Igor Cheslavovich

AU - Dolmatova, Olga Aleksandrovna

AU - Gorbenko, Anna Petrovna

AU - Semenov, Robert Ivanovich

AU - Tchoffo, Martin

AU - Tsygankova, Galina Aleksandrovna

PY - 2014

Y1 - 2014

N2 - The gyromagnetic ratios of levels (the g-factors) – are one of the most important characteristics of atoms. There are no corresponding experimental data in the literature for npn`l configurations of carbon atom. That is why the theoretical study of the fine and the Zeeman structures for the determination of the g-factors is ongoing. All the calculations are effected in one configuration approximation, with the energy operator matrix, in which the maximum possible number of interactions is taken into account, including the magnetic, spin-orbit (own and other) and spin-spin interactions. The fine structures were studied in three approximations (LS, LK, jK) for the establishment of the character of the coupling in 2p5f C I configuration. During the study of Zeeman splitting (except the g-factors) features of it were determined: the fields of crossings and anticrossings of magnetic components. In all steps of calculations the numerical digitalization of corresponding energy operator matrices were effected, e.g. t

AB - The gyromagnetic ratios of levels (the g-factors) – are one of the most important characteristics of atoms. There are no corresponding experimental data in the literature for npn`l configurations of carbon atom. That is why the theoretical study of the fine and the Zeeman structures for the determination of the g-factors is ongoing. All the calculations are effected in one configuration approximation, with the energy operator matrix, in which the maximum possible number of interactions is taken into account, including the magnetic, spin-orbit (own and other) and spin-spin interactions. The fine structures were studied in three approximations (LS, LK, jK) for the establishment of the character of the coupling in 2p5f C I configuration. During the study of Zeeman splitting (except the g-factors) features of it were determined: the fields of crossings and anticrossings of magnetic components. In all steps of calculations the numerical digitalization of corresponding energy operator matrices were effected, e.g. t

U2 - 10.11648/j.ajmp.20140306.1

DO - 10.11648/j.ajmp.20140306.1

M3 - Article

VL - 3

SP - 218

EP - 223

JO - American Journal of Modern Physics

JF - American Journal of Modern Physics

SN - 2326-8867

IS - 6

ER -

ID: 5740979