@InProceedings{taylor89,
author = {Gary Taylor and Cris W. Barnes and Bastiaan J. Braams
and Alfred J. Cavallo and Phillip C. Efthimion and
Charles F. F. Karney and S. Tamor and
Michael C. Zarnstorff and Stewart J. Zweben},
title = {Non-Thermal Electron Cyclotron Emission from {TFTR}
Supershot Plasmas},
booktitle = {Controlled Fusion and Plasma Physics},
pages = {31-34},
year = 1989,
editor = {S. Segre and H. Knoepfel and E. Sindoni},
volume = {13B, part I},
series = {Europhysics Conference Abstracts},
publisher = {European Physical Society},
note = {Sixteenth European Conf., Venice, Italy, Mar. 13--17
1989, paper P2-A1-2},
abstract = {The Ohmic targets of Supershot plasmas in the Tokamak
Fusion Test Reactor (TFTR) are often characterized by
the presence of non-thermal electron cyclotron
emission(ECE) from a runaway or slideaway electron
population. However in the 100–150 msec after
the start of neutral beam injection (NBI) this
non-thermal ECE decays away as the electron density
rises and the loop voltage drops. After this usual
slideaway-induced, non-thermal ECE is quenched a new
non-thermal feature develops at frequencies just below
both the optically thick, thermal emission of the ECE
fundamental ordinary mode, and the second harmonic
extraordinary mode. This paper presents an analysis
of the ECE data which indicates a possible source of
this non-thermal emission feature. In addition,
correlation of the peak intensity of the non-thermal
feature with various plasma parameters for 130 TFTR
discharges from 1988 provides some clues toward
identifying possible physical conditions which give
rise to the feature.}
}