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Distributed Hall Measuring System. / Volkova, O. A.; Chernovskiy, D. P.; Shtro, K. S.

In: Physics of Particles and Nuclei Letters, Vol. 22, No. 5, 03.10.2025, p. 1078-1081.

Research output: Contribution to journalArticlepeer-review

Harvard

Volkova, OA, Chernovskiy, DP & Shtro, KS 2025, 'Distributed Hall Measuring System', Physics of Particles and Nuclei Letters, vol. 22, no. 5, pp. 1078-1081. https://doi.org/10.1134/s1547477125701158

APA

Volkova, O. A., Chernovskiy, D. P., & Shtro, K. S. (2025). Distributed Hall Measuring System. Physics of Particles and Nuclei Letters, 22(5), 1078-1081. https://doi.org/10.1134/s1547477125701158

Vancouver

Volkova OA, Chernovskiy DP, Shtro KS. Distributed Hall Measuring System. Physics of Particles and Nuclei Letters. 2025 Oct 3;22(5):1078-1081. doi: 10.1134/s1547477125701158

Author

Volkova, O. A. ; Chernovskiy, D. P. ; Shtro, K. S. / Distributed Hall Measuring System. In: Physics of Particles and Nuclei Letters. 2025 ; Vol. 22, No. 5. pp. 1078-1081.

BibTeX

@article{fc5f7bade0164684b7080c752d885f21,
title = "Distributed Hall Measuring System",
abstract = "VEPP-5 injection complex located at BINP SB RAS delivers electron and positron beams through transportation channels to the VEPP-4M and VEPP-2000 colliders. It is necessary to change magnetic field vectors in dipole magnets to deliver particles which have different charges, such as positrons and electrons. Because of some physics effects in order to achieve precise adjustment of field, it is better to register not only current in magnet coils, but also the field in the transportation channel of the injection complex itself. The aim of the work is development of the device which would measure a magnetic field in the injection complex transportation channel with an accuracy better than 10^-3. Hall effect method is chosen. The tests on Hall sensors resistance to radiation are conducted. The device prototype for this experiment is created, assembled and tested. The change of Hall parameters due to time spent in radiation is registered. The experiment successfully demonstrated that the hall sensors operate in conditions of the injection complex radiation.",
author = "Volkova, {O. A.} and Chernovskiy, {D. P.} and Shtro, {K. S.}",
note = "Volkova O. A., Chernovskiy D. P., Shtro K. S. Distributed Hall Measuring System / O. A. Volkova, D. P. Chernovskiy, K. S. Shtro // Physics of Particles and Nuclei Letters. - 2025. - Т. 22. № 5. - С. 1078-1081. DOI 10.1134/s1547477125701158 ",
year = "2025",
month = oct,
day = "3",
doi = "10.1134/s1547477125701158",
language = "English",
volume = "22",
pages = "1078--1081",
journal = "Physics of Particles and Nuclei Letters",
issn = "1547-4771",
publisher = "Maik Nauka-Interperiodica Publishing",
number = "5",

}

RIS

TY - JOUR

T1 - Distributed Hall Measuring System

AU - Volkova, O. A.

AU - Chernovskiy, D. P.

AU - Shtro, K. S.

N1 - Volkova O. A., Chernovskiy D. P., Shtro K. S. Distributed Hall Measuring System / O. A. Volkova, D. P. Chernovskiy, K. S. Shtro // Physics of Particles and Nuclei Letters. - 2025. - Т. 22. № 5. - С. 1078-1081. DOI 10.1134/s1547477125701158

PY - 2025/10/3

Y1 - 2025/10/3

N2 - VEPP-5 injection complex located at BINP SB RAS delivers electron and positron beams through transportation channels to the VEPP-4M and VEPP-2000 colliders. It is necessary to change magnetic field vectors in dipole magnets to deliver particles which have different charges, such as positrons and electrons. Because of some physics effects in order to achieve precise adjustment of field, it is better to register not only current in magnet coils, but also the field in the transportation channel of the injection complex itself. The aim of the work is development of the device which would measure a magnetic field in the injection complex transportation channel with an accuracy better than 10^-3. Hall effect method is chosen. The tests on Hall sensors resistance to radiation are conducted. The device prototype for this experiment is created, assembled and tested. The change of Hall parameters due to time spent in radiation is registered. The experiment successfully demonstrated that the hall sensors operate in conditions of the injection complex radiation.

AB - VEPP-5 injection complex located at BINP SB RAS delivers electron and positron beams through transportation channels to the VEPP-4M and VEPP-2000 colliders. It is necessary to change magnetic field vectors in dipole magnets to deliver particles which have different charges, such as positrons and electrons. Because of some physics effects in order to achieve precise adjustment of field, it is better to register not only current in magnet coils, but also the field in the transportation channel of the injection complex itself. The aim of the work is development of the device which would measure a magnetic field in the injection complex transportation channel with an accuracy better than 10^-3. Hall effect method is chosen. The tests on Hall sensors resistance to radiation are conducted. The device prototype for this experiment is created, assembled and tested. The change of Hall parameters due to time spent in radiation is registered. The experiment successfully demonstrated that the hall sensors operate in conditions of the injection complex radiation.

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DO - 10.1134/s1547477125701158

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JO - Physics of Particles and Nuclei Letters

JF - Physics of Particles and Nuclei Letters

SN - 1547-4771

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