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Recent D-T results on TFTR

Authors :
W. Stodiek
R. O. Dendy
E.D. Fredrickson
V. Arunasalam
W. Tighe
Hyeon K. Park
A. T. Ramsey
R. E. Bell
H.W. Kugel
Kenneth M. Young
H. Takahashi
J. D. Strachan
M. Hughes
M. C. Zarnstorff
William Dorland
M. Sasao
P. H. LaMarche
H. Evenson
C. K. Phillips
D. L. Jassby
D. Mueller
S. von Goeler
Glenn Bateman
Robert Budny
D. Roberts
Richard Majeski
Stewart Zweben
Chio-Zong Cheng
S. A. Sabbagh
M.G. Bell
K. L. Wong
R.J. Hawryluk
G. Mckee
E. Mazzucato
M Kotschenreuther
F. M. Levinton
B. Grek
Larry R. Grisham
J. R. Timberlake
C. E. Bush
J. Schivell
Roscoe White
J. Mcchesney
S. H. Batha
Donald A. Spong
C W Barnes
W. W. Heidbrink
Nathaniel J. Fisch
M. Osakabe
Nikolai Gorelenkov
K. W. Hill
Harold P. Furth
A L Qualls
I. Semenov
E. Ruskov
J. Machuzak
Gregory W. Hammett
J. Kamperschroer
H. W. Herrmann
N. L. Bretz
David Johnson
R. K. Fisher
A. von Halle
S. Sesnic
S. D. Scott
Choong-Seock Chang
M. P. Petrov
P Parks
R Durst
H. H. Duong
R. J. Fonck
M. Phillips
B. C. Stratton
J. C. Hosea
B.P. LeBlanc
Raffi Nazikian
Manfred Bitter
G. Schilling
D.K. Owens
G Rewoldt
Z. Chang
A. Janos
D.K. Mansfield
D. S. Darrow
P. C. Efthimion
Guoyong Fu
D. R. Ernst
H. Hsuan
K. M. McGuire
G. A. Wurden
Michael E. Mauel
M. H. Redi
E S Marmar
William Tang
C.H. Skinner
F. C. Jobes
T. Fujita
L. C. Johnson
S. S. Medley
G. L. Schmidt
G. Taylor
E. J. Synakowski
A. L. Roquemore
S. Cauffman
S. V. Mirnov
J. Kesner
James R. Wilson
D. R. Mikkelsen
J. L. Terry
Dale Meade
J. H. Rogers
W. Park
S. F. Paul
Michael A. Beer
Source :
Plasma Physics and Controlled Fusion. 37:A69-A85
Publication Year :
1995
Publisher :
IOP Publishing, 1995.

Abstract

Routine tritium operation in TFTR has permitted investigations of alpha particle physics in parameter ranges resembling those of a reactor core. ICRF wave physics in a DT plasma and the influence of isotopic mass on supershot confinement have also been studied. Continued progress has been made in optimizing fusion power production in TFTR, using extended machine capability and Li wall conditioning. Performance is currently limited by MHD stability. A new reversed magnetic shear regime is being investigated with reduced core transport and a higher predicted stability limit.

Subjects

Subjects :
Core (optical fiber)
Physics
Nuclear physics
Shear (sheet metal)
Nuclear Energy and Engineering
Nuclear reactor core
Physics::Plasma Physics
Tritium
Plasma
Alpha particle
Magnetohydrodynamics
Fusion power
Condensed Matter Physics

Details

ISSN :
13616587 and 07413335
Volume :
37
Database :
OpenAIRE
Journal :
Plasma Physics and Controlled Fusion
Accession number :
edsair.doi...........ec32a41405ffe1d68bb8a5d35a303f90
Full Text :
https://doi.org/10.1088/0741-3335/37/11a/005
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