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An Efficient Algorithm for Calculating the Magnetic Field in a Cylindrical Plasma Trap. / Liseykina, T. V.; Vshivkov, V. A.; Kholiyarov, U. A.
в: Lobachevskii Journal of Mathematics, Том 45, № 1, 01.2024, стр. 75-84.Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
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TY - JOUR
T1 - An Efficient Algorithm for Calculating the Magnetic Field in a Cylindrical Plasma Trap
AU - Liseykina, T. V.
AU - Vshivkov, V. A.
AU - Kholiyarov, U. A.
N1 - Authors acknowledge the financial support by Russian Science Foundation within grant no. 19-71-20026.
PY - 2024/1
Y1 - 2024/1
N2 - In this work, we propose a numerical algorithm for calculating the magnetic field in an open magnetic trap, which is an axisymmetric chamber filled with plasma. The plasma is held in the trap by a special configuration of the magnetic field generated by current coils located at the ends of the chamber. The problem consists in developing an efficient algorithm for calculating the configuration of the magnetic field, which is determined by a given distribution of the external azimuthal current in the coils. The task is solved in two steps. First, the magnetic field distribution is found from the known arrangement of coils, and then this distribution is scaled so that the magnitude of the field in the center of the chamber and the mirror ratio are equal to the given values. The proposed algorithm can be easily generalized to solve the Poisson equation with Neumann boundary conditions on two opposing boundaries of the computational domain. This allows us to apply the developed method to calculate the potential in nonstationary problems.
AB - In this work, we propose a numerical algorithm for calculating the magnetic field in an open magnetic trap, which is an axisymmetric chamber filled with plasma. The plasma is held in the trap by a special configuration of the magnetic field generated by current coils located at the ends of the chamber. The problem consists in developing an efficient algorithm for calculating the configuration of the magnetic field, which is determined by a given distribution of the external azimuthal current in the coils. The task is solved in two steps. First, the magnetic field distribution is found from the known arrangement of coils, and then this distribution is scaled so that the magnitude of the field in the center of the chamber and the mirror ratio are equal to the given values. The proposed algorithm can be easily generalized to solve the Poisson equation with Neumann boundary conditions on two opposing boundaries of the computational domain. This allows us to apply the developed method to calculate the potential in nonstationary problems.
KW - Poisson
KW - equation
KW - iterative
KW - magnetic
KW - method
KW - open
KW - trap
UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-85190840805&origin=inward&txGid=82cea196d6dddaaa93d4d1d39f9c9cae
UR - https://www.mendeley.com/catalogue/6632ef29-8e03-3fd1-991a-fa7c77e20885/
U2 - 10.1134/S1995080224010359
DO - 10.1134/S1995080224010359
M3 - Article
VL - 45
SP - 75
EP - 84
JO - Lobachevskii Journal of Mathematics
JF - Lobachevskii Journal of Mathematics
SN - 1995-0802
IS - 1
ER -
ID: 60550954