TY - JOUR
T1 - Collisional merging process of field-reversed configuration plasmas in the FAT-CM device
AU - Tanaka, Fumiyuki
AU - Asai, Tomohiko
AU - Sekiguchi, Junichi
AU - Takahashi, Tsutomu
AU - Ishiwata, Junpei
AU - Edo, Takahiro
AU - Ono, Naoto
AU - Matsui, Keisuke
AU - Watanabe, Shintarou
AU - Hishida, Daiki
AU - Kobayashi, Daichi
AU - Hirose, Yousuke
AU - Hosozawa, Akiyoshi
AU - Mok, Yung
AU - Dettrick, Sean
AU - Roche, Thomas
AU - Gota, Hiroshi
AU - Binderbauer, Michl W.
AU - Tajima, Toshiki
N1 - Publisher Copyright:
© 2019 The Japan Society of Plasma Science and Nuclear Fusion Research.
PY - 2018
Y1 - 2018
N2 - In order to investigate the collisional merging process of field-reversed configurations (FRCs), the FAT device has recently been upgraded to FAT-CM, consisting of two field-reversed theta-pinch (FRTP) formation sections and the confinement section. Collisional merging of the two FRCs causes a conversion of the kinetic energy to mostly thermal ion energy, resulting in an increase of the ion pressure that greatly expands the FRC size/volume. This increase of the FRC size is observed by magnetic diagnostics in the confinement region, leading to an increase in the excluded flux; on a side note, these characteristics/phenomena have also been observed in C- 2/C-2U experiments at TAE Technologies. The process of FRC formation, translation and collisional merging in FAT-CM has been simulated by Lamy Ridge, 2D resistive magnetohydrodynamics code, in which the same phenomenon of the excluded-flux increase via FRC collisional merging has been observed. Simulation results also indicate that there is an importance of the external magnetic field structure/profile in the confinement region, clearly affecting the FRC merging. Steeper magnetic field gradient by a strong mirror field appears to suppress the axial expansion of collided FRCs and lead a merged FRC to higher temperature.
AB - In order to investigate the collisional merging process of field-reversed configurations (FRCs), the FAT device has recently been upgraded to FAT-CM, consisting of two field-reversed theta-pinch (FRTP) formation sections and the confinement section. Collisional merging of the two FRCs causes a conversion of the kinetic energy to mostly thermal ion energy, resulting in an increase of the ion pressure that greatly expands the FRC size/volume. This increase of the FRC size is observed by magnetic diagnostics in the confinement region, leading to an increase in the excluded flux; on a side note, these characteristics/phenomena have also been observed in C- 2/C-2U experiments at TAE Technologies. The process of FRC formation, translation and collisional merging in FAT-CM has been simulated by Lamy Ridge, 2D resistive magnetohydrodynamics code, in which the same phenomenon of the excluded-flux increase via FRC collisional merging has been observed. Simulation results also indicate that there is an importance of the external magnetic field structure/profile in the confinement region, clearly affecting the FRC merging. Steeper magnetic field gradient by a strong mirror field appears to suppress the axial expansion of collided FRCs and lead a merged FRC to higher temperature.
KW - 2D resistive MHD simulation
KW - Field-reversed configuration
KW - FRC merging
KW - High beta plasma
KW - Magnetically confined plasma
UR - http://www.scopus.com/inward/record.url?scp=85066107691&partnerID=8YFLogxK
U2 - 10.1585/PFR.13.3402098
DO - 10.1585/PFR.13.3402098
M3 - Article
AN - SCOPUS:85066107691
SN - 1880-6821
VL - 13
JO - Plasma and Fusion Research
JF - Plasma and Fusion Research
M1 - 3402098
ER -