High-flux plasma state formed by dynamic merging of two colliding compact toroids

Summary form only given. A high temperature field reversed configuration (FRC) has been produced in the newly built and world's largest compact toroid device, C-2, by dynamically merging two oppositely directed, highly supersonic compact toroids. Dramatic amplification of the poloidal flux occu...

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Hauptverfasser:	Binderbauer, Michl W, Guo, Houyang Y, Tuszewski, Michel, Barnes, Daniel C
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Kinetic energy Magnetic confinement Magnetohydrodynamics Merging Plasma confinement Plasma temperature Plasma transport processes Robustness Tellurium USA Councils
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creator	Binderbauer, Michl W Guo, Houyang Y Tuszewski, Michel Barnes, Daniel C
description	Summary form only given. A high temperature field reversed configuration (FRC) has been produced in the newly built and world's largest compact toroid device, C-2, by dynamically merging two oppositely directed, highly supersonic compact toroids. Dramatic amplification of the poloidal flux occurs during the collisional merging process with a flux amplification factor well over 10, which is by far the highest obtained in a magnetic confinement system. Most of the kinetic energy is converted into thermal energy with total temperature (T i +T e ) exceeding 0.5 keV upon merging. The final FRC state exhibits a record plasma lifetime with transport rates (based on robust flux diffusion) within about a factor of 10 from classical scaling. Moreover, the dynamics of the merging/reconnection process are reproduced, for the first time, by a newly developed 2-D resistive magnetohydrodynamic (MHD) code, LamyRidge. As such, the combined effort sheds new light on high-P reconnection and relaxation.
doi_str_mv	10.1109/PLASMA.2010.5534406
format	Conference Proceeding
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A high temperature field reversed configuration (FRC) has been produced in the newly built and world's largest compact toroid device, C-2, by dynamically merging two oppositely directed, highly supersonic compact toroids. Dramatic amplification of the poloidal flux occurs during the collisional merging process with a flux amplification factor well over 10, which is by far the highest obtained in a magnetic confinement system. Most of the kinetic energy is converted into thermal energy with total temperature (T i +T e ) exceeding 0.5 keV upon merging. The final FRC state exhibits a record plasma lifetime with transport rates (based on robust flux diffusion) within about a factor of 10 from classical scaling. Moreover, the dynamics of the merging/reconnection process are reproduced, for the first time, by a newly developed 2-D resistive magnetohydrodynamic (MHD) code, LamyRidge. 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A high temperature field reversed configuration (FRC) has been produced in the newly built and world's largest compact toroid device, C-2, by dynamically merging two oppositely directed, highly supersonic compact toroids. Dramatic amplification of the poloidal flux occurs during the collisional merging process with a flux amplification factor well over 10, which is by far the highest obtained in a magnetic confinement system. Most of the kinetic energy is converted into thermal energy with total temperature (T i +T e ) exceeding 0.5 keV upon merging. The final FRC state exhibits a record plasma lifetime with transport rates (based on robust flux diffusion) within about a factor of 10 from classical scaling. Moreover, the dynamics of the merging/reconnection process are reproduced, for the first time, by a newly developed 2-D resistive magnetohydrodynamic (MHD) code, LamyRidge. 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A high temperature field reversed configuration (FRC) has been produced in the newly built and world's largest compact toroid device, C-2, by dynamically merging two oppositely directed, highly supersonic compact toroids. Dramatic amplification of the poloidal flux occurs during the collisional merging process with a flux amplification factor well over 10, which is by far the highest obtained in a magnetic confinement system. Most of the kinetic energy is converted into thermal energy with total temperature (T i +T e ) exceeding 0.5 keV upon merging. The final FRC state exhibits a record plasma lifetime with transport rates (based on robust flux diffusion) within about a factor of 10 from classical scaling. Moreover, the dynamics of the merging/reconnection process are reproduced, for the first time, by a newly developed 2-D resistive magnetohydrodynamic (MHD) code, LamyRidge. 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subjects	Kinetic energy Magnetic confinement Magnetohydrodynamics Merging Plasma confinement Plasma temperature Plasma transport processes Robustness Tellurium USA Councils
title	High-flux plasma state formed by dynamic merging of two colliding compact toroids
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