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MODELLING PM DIPOLES WITH LONGITUDINAL FIELD GRADIENT FOR SILA FACILITY. / Arslanova, D.; Gapionok, E.; Knyazev, N.; Kukhtin, V.; Lamzin, E.; Makarov, A.; Nezhentzev, A.; Shatil, N.; Znamenshchikova, N.; Ovsyannikov, A.; Ovsyannikov, D.; Sytchevsky, S.

In: Cybernetics and Physics, Vol. 13, No. 2, 30.09.2024, p. 99-102.

Research output: Contribution to journalArticlepeer-review

Harvard

Arslanova, D, Gapionok, E, Knyazev, N, Kukhtin, V, Lamzin, E, Makarov, A, Nezhentzev, A, Shatil, N, Znamenshchikova, N, Ovsyannikov, A, Ovsyannikov, D & Sytchevsky, S 2024, 'MODELLING PM DIPOLES WITH LONGITUDINAL FIELD GRADIENT FOR SILA FACILITY', Cybernetics and Physics, vol. 13, no. 2, pp. 99-102. https://doi.org/10.35470/2226-4116-2024-13-2-99-102

APA

Arslanova, D., Gapionok, E., Knyazev, N., Kukhtin, V., Lamzin, E., Makarov, A., Nezhentzev, A., Shatil, N., Znamenshchikova, N., Ovsyannikov, A., Ovsyannikov, D., & Sytchevsky, S. (2024). MODELLING PM DIPOLES WITH LONGITUDINAL FIELD GRADIENT FOR SILA FACILITY. Cybernetics and Physics, 13(2), 99-102. https://doi.org/10.35470/2226-4116-2024-13-2-99-102

Vancouver

Arslanova D, Gapionok E, Knyazev N, Kukhtin V, Lamzin E, Makarov A et al. MODELLING PM DIPOLES WITH LONGITUDINAL FIELD GRADIENT FOR SILA FACILITY. Cybernetics and Physics. 2024 Sep 30;13(2):99-102. https://doi.org/10.35470/2226-4116-2024-13-2-99-102

Author

Arslanova, D. ; Gapionok, E. ; Knyazev, N. ; Kukhtin, V. ; Lamzin, E. ; Makarov, A. ; Nezhentzev, A. ; Shatil, N. ; Znamenshchikova, N. ; Ovsyannikov, A. ; Ovsyannikov, D. ; Sytchevsky, S. / MODELLING PM DIPOLES WITH LONGITUDINAL FIELD GRADIENT FOR SILA FACILITY. In: Cybernetics and Physics. 2024 ; Vol. 13, No. 2. pp. 99-102.

BibTeX

@article{0be6ab2db0ac4069a5e1481d249f0dba,
title = "MODELLING PM DIPOLES WITH LONGITUDINAL FIELD GRADIENT FOR SILA FACILITY",
abstract = "Computational models are described which were built for parametric simulations of permanent magnet (PM) dipoles with a longitudinal field gradient. The dipoles will be used as bending magnets in the synchrotron facility SILA, a new project of the National Research Center “Kurchatov Institute”. The dipoles employ a Sm-Co permanent magnet material and pure iron. The need for high magnetic performance and anticipated interference between neighbouring components is a challenge for design and construction of the magnet system. For this reason the magnet designs must rely on precision 3D simulations. The dipoles are described in detail with parameterized models. Parametric simulations are to be applied at all stages of the project till the commissioning to provide realistic prediction of the magnet behaviour. {\textcopyright} 2024, Institute for Problems in Mechanical Engineering, Russian Academy of Sciences. All rights reserved.",
keywords = "dipole, mathematical model, permanent magnet, storage ring, synchrotron",
author = "D. Arslanova and E. Gapionok and N. Knyazev and V. Kukhtin and E. Lamzin and A. Makarov and A. Nezhentzev and N. Shatil and N. Znamenshchikova and A. Ovsyannikov and D. Ovsyannikov and S. Sytchevsky",
note = "Export Date: 27 October 2024",
year = "2024",
month = sep,
day = "30",
doi = "10.35470/2226-4116-2024-13-2-99-102",
language = "Английский",
volume = "13",
pages = "99--102",
journal = "Cybernetics and Physics",
issn = "2223-7038",
publisher = "IPACS",
number = "2",

}

RIS

TY - JOUR

T1 - MODELLING PM DIPOLES WITH LONGITUDINAL FIELD GRADIENT FOR SILA FACILITY

AU - Arslanova, D.

AU - Gapionok, E.

AU - Knyazev, N.

AU - Kukhtin, V.

AU - Lamzin, E.

AU - Makarov, A.

AU - Nezhentzev, A.

AU - Shatil, N.

AU - Znamenshchikova, N.

AU - Ovsyannikov, A.

AU - Ovsyannikov, D.

AU - Sytchevsky, S.

N1 - Export Date: 27 October 2024

PY - 2024/9/30

Y1 - 2024/9/30

N2 - Computational models are described which were built for parametric simulations of permanent magnet (PM) dipoles with a longitudinal field gradient. The dipoles will be used as bending magnets in the synchrotron facility SILA, a new project of the National Research Center “Kurchatov Institute”. The dipoles employ a Sm-Co permanent magnet material and pure iron. The need for high magnetic performance and anticipated interference between neighbouring components is a challenge for design and construction of the magnet system. For this reason the magnet designs must rely on precision 3D simulations. The dipoles are described in detail with parameterized models. Parametric simulations are to be applied at all stages of the project till the commissioning to provide realistic prediction of the magnet behaviour. © 2024, Institute for Problems in Mechanical Engineering, Russian Academy of Sciences. All rights reserved.

AB - Computational models are described which were built for parametric simulations of permanent magnet (PM) dipoles with a longitudinal field gradient. The dipoles will be used as bending magnets in the synchrotron facility SILA, a new project of the National Research Center “Kurchatov Institute”. The dipoles employ a Sm-Co permanent magnet material and pure iron. The need for high magnetic performance and anticipated interference between neighbouring components is a challenge for design and construction of the magnet system. For this reason the magnet designs must rely on precision 3D simulations. The dipoles are described in detail with parameterized models. Parametric simulations are to be applied at all stages of the project till the commissioning to provide realistic prediction of the magnet behaviour. © 2024, Institute for Problems in Mechanical Engineering, Russian Academy of Sciences. All rights reserved.

KW - dipole

KW - mathematical model

KW - permanent magnet

KW - storage ring

KW - synchrotron

UR - https://www.mendeley.com/catalogue/373974c5-32ef-3704-af27-da26909161a0/

U2 - 10.35470/2226-4116-2024-13-2-99-102

DO - 10.35470/2226-4116-2024-13-2-99-102

M3 - статья

VL - 13

SP - 99

EP - 102

JO - Cybernetics and Physics

JF - Cybernetics and Physics

SN - 2223-7038

IS - 2

ER -

ID: 126462287