Runaway electrons in toroidal discharges

H. Knoepfel; D. A. Spong

doi:10.1088/0029-5515/19/6/008

Runaway electrons in toroidal discharges

H. Knoepfel
, D. A. Spong

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

300 Scopus citations

Abstract

Experimental and theoretical studies of runaway electrons in toroidal devices are reviewed here, with particular reference to tokamaks. The complex phenomenology of runaway effects, which have been the subject of research for the past twenty years, is organized within the framework of a number of physical models. The mechanisms and rates for runaway production are discussed first, followed by sections on runaway-driven kinetic relaxation processes and runaway orbit confinement. Next, the equilibrium and stability of runaway-dominated discharges are reviewed. Models for runaway production at early times in the discharge and the scaling of runaway phenomena to larger devices are also discussed. Finally, detection techniques and possible applications of runaways are mentioned.

Original language	English
Pages (from-to)	785-829
Number of pages	45
Journal	Nuclear Fusion
Volume	19
Issue number	6
DOIs	https://doi.org/10.1088/0029-5515/19/6/008
State	Published - Jun 1979

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abstract = "Experimental and theoretical studies of runaway electrons in toroidal devices are reviewed here, with particular reference to tokamaks. The complex phenomenology of runaway effects, which have been the subject of research for the past twenty years, is organized within the framework of a number of physical models. The mechanisms and rates for runaway production are discussed first, followed by sections on runaway-driven kinetic relaxation processes and runaway orbit confinement. Next, the equilibrium and stability of runaway-dominated discharges are reviewed. Models for runaway production at early times in the discharge and the scaling of runaway phenomena to larger devices are also discussed. Finally, detection techniques and possible applications of runaways are mentioned.",

author = "H. Knoepfel and Spong, \{D. A.\}",

year = "1979",

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AU - Spong, D. A.

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N2 - Experimental and theoretical studies of runaway electrons in toroidal devices are reviewed here, with particular reference to tokamaks. The complex phenomenology of runaway effects, which have been the subject of research for the past twenty years, is organized within the framework of a number of physical models. The mechanisms and rates for runaway production are discussed first, followed by sections on runaway-driven kinetic relaxation processes and runaway orbit confinement. Next, the equilibrium and stability of runaway-dominated discharges are reviewed. Models for runaway production at early times in the discharge and the scaling of runaway phenomena to larger devices are also discussed. Finally, detection techniques and possible applications of runaways are mentioned.

AB - Experimental and theoretical studies of runaway electrons in toroidal devices are reviewed here, with particular reference to tokamaks. The complex phenomenology of runaway effects, which have been the subject of research for the past twenty years, is organized within the framework of a number of physical models. The mechanisms and rates for runaway production are discussed first, followed by sections on runaway-driven kinetic relaxation processes and runaway orbit confinement. Next, the equilibrium and stability of runaway-dominated discharges are reviewed. Models for runaway production at early times in the discharge and the scaling of runaway phenomena to larger devices are also discussed. Finally, detection techniques and possible applications of runaways are mentioned.

UR - https://www.scopus.com/pages/publications/0018480564

U2 - 10.1088/0029-5515/19/6/008

DO - 10.1088/0029-5515/19/6/008

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SN - 0029-5515

VL - 19

SP - 785

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JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 6

ER -

Runaway electrons in toroidal discharges

Abstract

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