Improvement of Plasmoid Acceleration Performance by Increased Magnetic Pressure Gradient for High-Mach Number Shock Generation*)

Taichi Seki; Tomohiko Asai; Daichi Kobayashi; Tatsuhiro Watanabe; Daisuke Harashima; Yasuaki Tamura; Hiroki Someya; Tsutomu Takahashi; Jordan Morelli

doi:10.1585/PFR.17.2402092

Improvement of Plasmoid Acceleration Performance by Increased Magnetic Pressure Gradient for High-Mach Number Shock Generation*)

Taichi Seki, Tomohiko Asai, Daichi Kobayashi, Tatsuhiro Watanabe, Daisuke Harashima, Yasuaki Tamura, Hiroki Someya, Tsutomu Takahashi, Jordan Morelli

College of Science and Technology

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

The field-reversed configuration (FRC) collisional merging experiment in the FAT-CM device at Nihon University has been conducted for the generation of collisionless shock waves that are considered to cause the generation of nonthermal particles. Two FRC-like plasmoids with extremely high-beta formed by field-reversed theta-pinch are translated directly toward each other and collide at super-sonic/Alfvénic velocity. The acceleration performance is improved to generate high-Mach number shocks by generating the high-magnetic pressure gradient at the boundary between the formation and confinement sections. In this study, an increase in the translation velocity in the shortened coil geometry is presented. Changing of coil geometry may affect not only the velocity but also other parameters.

Original language	English
Article number	2402092
Journal	Plasma and Fusion Research
Volume	17
DOIs	https://doi.org/10.1585/PFR.17.2402092
Publication status	Published - 2022

Keywords

Acceleration
Collisionless shock
Field-reversed configuration
High-beta plasma
High-mach number

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10.1585/PFR.17.2402092

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title = "Improvement of Plasmoid Acceleration Performance by Increased Magnetic Pressure Gradient for High-Mach Number Shock Generation*)",

abstract = "The field-reversed configuration (FRC) collisional merging experiment in the FAT-CM device at Nihon University has been conducted for the generation of collisionless shock waves that are considered to cause the generation of nonthermal particles. Two FRC-like plasmoids with extremely high-beta formed by field-reversed theta-pinch are translated directly toward each other and collide at super-sonic/Alfv{\'e}nic velocity. The acceleration performance is improved to generate high-Mach number shocks by generating the high-magnetic pressure gradient at the boundary between the formation and confinement sections. In this study, an increase in the translation velocity in the shortened coil geometry is presented. Changing of coil geometry may affect not only the velocity but also other parameters.",

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author = "Taichi Seki and Tomohiko Asai and Daichi Kobayashi and Tatsuhiro Watanabe and Daisuke Harashima and Yasuaki Tamura and Hiroki Someya and Tsutomu Takahashi and Jordan Morelli",

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journal = "Plasma and Fusion Research",

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T1 - Improvement of Plasmoid Acceleration Performance by Increased Magnetic Pressure Gradient for High-Mach Number Shock Generation*)

AU - Seki, Taichi

AU - Asai, Tomohiko

AU - Kobayashi, Daichi

AU - Watanabe, Tatsuhiro

AU - Harashima, Daisuke

AU - Tamura, Yasuaki

AU - Someya, Hiroki

AU - Takahashi, Tsutomu

AU - Morelli, Jordan

PY - 2022

Y1 - 2022

N2 - The field-reversed configuration (FRC) collisional merging experiment in the FAT-CM device at Nihon University has been conducted for the generation of collisionless shock waves that are considered to cause the generation of nonthermal particles. Two FRC-like plasmoids with extremely high-beta formed by field-reversed theta-pinch are translated directly toward each other and collide at super-sonic/Alfvénic velocity. The acceleration performance is improved to generate high-Mach number shocks by generating the high-magnetic pressure gradient at the boundary between the formation and confinement sections. In this study, an increase in the translation velocity in the shortened coil geometry is presented. Changing of coil geometry may affect not only the velocity but also other parameters.

AB - The field-reversed configuration (FRC) collisional merging experiment in the FAT-CM device at Nihon University has been conducted for the generation of collisionless shock waves that are considered to cause the generation of nonthermal particles. Two FRC-like plasmoids with extremely high-beta formed by field-reversed theta-pinch are translated directly toward each other and collide at super-sonic/Alfvénic velocity. The acceleration performance is improved to generate high-Mach number shocks by generating the high-magnetic pressure gradient at the boundary between the formation and confinement sections. In this study, an increase in the translation velocity in the shortened coil geometry is presented. Changing of coil geometry may affect not only the velocity but also other parameters.

KW - Acceleration

KW - Collisionless shock

KW - Field-reversed configuration

KW - High-beta plasma

KW - High-mach number

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JO - Plasma and Fusion Research

JF - Plasma and Fusion Research

M1 - 2402092

ER -

Improvement of Plasmoid Acceleration Performance by Increased Magnetic Pressure Gradient for High-Mach Number Shock Generation*)

Abstract

Keywords

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