Conceptual Model of a Quasi-Force-Free Magnet of Small Volume with Inertial Retention of Its End Part

Shneerson, G. A.; Parfentiev, A. A.; Titkov, V. V.; Krivosheev, S. I.; Lagutkina, A. D.; Nemov, A. S.; Nenashev, A. P.; Shimansky, S. A.

doi:10.1134/S1063785021060134

Conceptual Model of a Quasi-Force-Free Magnet of Small Volume with Inertial Retention of Its End Part

Published: 16 December 2021

Volume 47, pages 573–576, (2021)
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G. A. Shneerson¹,
A. A. Parfentiev¹,
V. V. Titkov¹,
S. I. Krivosheev¹,
A. D. Lagutkina¹,
A. S. Nemov¹,
A. P. Nenashev¹ &
…
S. A. Shimansky¹

Abstract

The efficiency of using a diamagnetic screen with inertial retention in a non-destructive quasi-force-free magnet of a small volume (with a characteristic dimension about 10 cm³) for generating a superstrong magnetic field with a pulse duration of about 10 µs is shown. A configuration of the magnet was developed, in which the end part of the winding is balanced due to the fact that the screen virtually does not move during the discharge. Mechanical stresses in the winding were calculated, and it was demonstrated that mechanical strength of the winding can be ensured in a field with magnetic flux density up to 100 T. Calculations of the heating of the winding were performed and the possibilities of its reduction to an acceptable level are indicated.

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Notes

One conductor connecting parts of the winding, as well as the edge and coaxiaL screens are not shown in Fig. 2.

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ACKNOWLEDGMENTS

The results were obtained using the computational resources of Peter the Great Saint-Petersburg Polytechnic University Supercomputing Center (www.scc.spbstu.ru).

Funding

This work has been supported by the Russian Science Foundation (project no. 18-19-00230).

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Authors and Affiliations

Peter the Great St. Petersburg Polytechnic University, 195251, St. Petersburg, Russia
G. A. Shneerson, A. A. Parfentiev, V. V. Titkov, S. I. Krivosheev, A. D. Lagutkina, A. S. Nemov, A. P. Nenashev & S. A. Shimansky

Authors

G. A. Shneerson
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A. A. Parfentiev
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V. V. Titkov
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S. I. Krivosheev
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A. D. Lagutkina
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A. S. Nemov
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A. P. Nenashev
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S. A. Shimansky
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Correspondence to G. A. Shneerson.

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Shneerson, G.A., Parfentiev, A.A., Titkov, V.V. et al. Conceptual Model of a Quasi-Force-Free Magnet of Small Volume with Inertial Retention of Its End Part. Tech. Phys. Lett. 47, 573–576 (2021). https://doi.org/10.1134/S1063785021060134

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Received: 01 December 2020
Revised: 12 March 2021
Accepted: 12 March 2021
Published: 16 December 2021
Issue Date: August 2021
DOI: https://doi.org/10.1134/S1063785021060134

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