Studies of plasma performance and transport in the advanced toroidal facility (ATF)

Authors :: P. L. Shaw
J. F. Lyon
R.C. Isler
C.P. Ritz
R. D. Benson
J. W. Halliwell
J.E. Simpkins
W.R. Wing
C. Hidalgo
D.K. Lee
G.L. Bell
R.J. Colchin
R.A. Langley
H.C. Howe
M. Murakami
T. Uckan
D.L. Hillis
M. R. Wade
C. E. Thomas
C.H. Ma
T.C. Jernigan
G.R. Dyer
E. Anabitarte
David A Rasmussen
L.D. Horton
Hiroshi Yamada
J.A. White
J. H. Harris
T.L. Clark
G.R. Hanson
Robert Noel Morris
Benjamin A. Carreras
S. Hiroe
J.L. Dunlap
John B Wilgen
J. J. Zielinski
E.C. Crume
J. W. Lue
T. D. Shepard
W.R. DeVan
P. K. Mioduszewski
S.C. Aceto
P. S. Rogers
T.S. Bigelow
J.C. Glowienka
S.W. Schwenterly
A.C. England
G.H. Neilson
C.T. Wilson
F.S.B. Anderson
J.D. Bell
C. L. Hedrick
Publication Year :: 2008
Publisher :: Zenodo, 2008.
Abstract: An overview of recent AFT (Advanced Toroidal Facility) experimental results and program plans is presented, with emphasis on the role of magnetic configuration controls in transport studies. The ATF operating space is bounded by a density limit that effectively sets a limit on the energy confinement time tau /sub E/. Although this limit is not solely due to impurities, it has recently been raised by improved cleanliness following titanium gettering. This has led to collapse-free neutral beam injection discharges with global tau /sub E/ approximately=16 ms. Preliminary experiments show that stored energy and bootstrap current are sensitive to details of the magnetic configuration. >

Subjects :: Physics
Toroid
Energetic neutral atom
Nuclear engineering
Limit (music)
Physics::Accelerator Physics
Plasma
Atomic physics
Space (mathematics)
Neutral beam injection
Energy (signal processing)
Bootstrap current

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