Study of the Zeeman Structure and the Gyromagnetic Ratios of the 2p4f and 3p4f Configurations of the Carbon and Silicon Atoms

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Study of the Zeeman Structure and the Gyromagnetic Ratios of the 2p4f and 3p4f Configurations of the Carbon and Silicon Atoms. / Anisimova, Galina Pavlovna; Dolmatova, Olga Aleksandrovna; Gorbenko, Anna Petrovna ; Krylov, Igor Ratmirovich ; Mashek, Igor Cheslavovich; Tchoffo, Martin Luter; Tsygankova, Galina Aleksandrovna.

в: American Journal of Modern Physics, Том 4, № 6, 2015, стр. 296-303.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

BibTeX

@article{f151090dd22d4b90bc4a87c190c7a1d3,

title = "Study of the Zeeman Structure and the Gyromagnetic Ratios of the 2p4f and 3p4f Configurations of the Carbon and Silicon Atoms",

abstract = "The present article is a continuation of the authors works devoted to the theoretical study of the fine structure parameters, and other atom characteristics, for which there are no experimental data except for energies of levels of the fine structure. The authors have studied Zeeman structure of the 2p4f and 3p4f configurations and revealed its particular features — crossings and anticrossings of the magnetic sublevels. From splittings of levels in the assured linear range, the authors have calculated gyromagnetic ratios and compared them with their counterparts in the absence of the field. The study of the Zeeman structure is interesting in its own right. Furthermore, through Zeeman splitting in the linear domain of the magnetic field, one can determine the gyromagnetic ratios — one of the most important characteristics of the atoms. Calculation of the Zeeman structure is correct, if in the absence of the field, during the diagonalisation of the energy operator matrix, one obtains the calculated energies, pr",

keywords = "Fine Structure, Zeeman Splitting, Crossings and Anticrossings of Magnetic Components, Gyromagnetic Ratios, Energy Operator Matrix",

author = "Anisimova, {Galina Pavlovna} and Dolmatova, {Olga Aleksandrovna} and Gorbenko, {Anna Petrovna} and Krylov, {Igor Ratmirovich} and Mashek, {Igor Cheslavovich} and Tchoffo, {Martin Luter} and Tsygankova, {Galina Aleksandrovna}",

year = "2015",

doi = "10.11648/j.ajmp.20150406.17",

language = "English",

volume = "4",

pages = "296--303",

journal = "American Journal of Modern Physics",

issn = "2326-8867",

publisher = "Science Publishing Group",

number = "6",

}

RIS

TY - JOUR

T1 - Study of the Zeeman Structure and the Gyromagnetic Ratios of the 2p4f and 3p4f Configurations of the Carbon and Silicon Atoms

AU - Anisimova, Galina Pavlovna

AU - Dolmatova, Olga Aleksandrovna

AU - Gorbenko, Anna Petrovna

AU - Krylov, Igor Ratmirovich

AU - Mashek, Igor Cheslavovich

AU - Tchoffo, Martin Luter

AU - Tsygankova, Galina Aleksandrovna

PY - 2015

Y1 - 2015

N2 - The present article is a continuation of the authors works devoted to the theoretical study of the fine structure parameters, and other atom characteristics, for which there are no experimental data except for energies of levels of the fine structure. The authors have studied Zeeman structure of the 2p4f and 3p4f configurations and revealed its particular features — crossings and anticrossings of the magnetic sublevels. From splittings of levels in the assured linear range, the authors have calculated gyromagnetic ratios and compared them with their counterparts in the absence of the field. The study of the Zeeman structure is interesting in its own right. Furthermore, through Zeeman splitting in the linear domain of the magnetic field, one can determine the gyromagnetic ratios — one of the most important characteristics of the atoms. Calculation of the Zeeman structure is correct, if in the absence of the field, during the diagonalisation of the energy operator matrix, one obtains the calculated energies, pr

AB - The present article is a continuation of the authors works devoted to the theoretical study of the fine structure parameters, and other atom characteristics, for which there are no experimental data except for energies of levels of the fine structure. The authors have studied Zeeman structure of the 2p4f and 3p4f configurations and revealed its particular features — crossings and anticrossings of the magnetic sublevels. From splittings of levels in the assured linear range, the authors have calculated gyromagnetic ratios and compared them with their counterparts in the absence of the field. The study of the Zeeman structure is interesting in its own right. Furthermore, through Zeeman splitting in the linear domain of the magnetic field, one can determine the gyromagnetic ratios — one of the most important characteristics of the atoms. Calculation of the Zeeman structure is correct, if in the absence of the field, during the diagonalisation of the energy operator matrix, one obtains the calculated energies, pr

KW - Fine Structure

KW - Zeeman Splitting

KW - Crossings and Anticrossings of Magnetic Components

KW - Gyromagnetic Ratios

KW - Energy Operator Matrix

U2 - 10.11648/j.ajmp.20150406.17

DO - 10.11648/j.ajmp.20150406.17

M3 - Article

VL - 4

SP - 296

EP - 303

JO - American Journal of Modern Physics

JF - American Journal of Modern Physics

SN - 2326-8867

IS - 6

ER -

ID: 5816617