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The cover picture shows the inside
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AFGHANISTAN ALBANIA ALGERIA ARGENTI
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PLASMA PHYSICS AND CONTROLLED NUCLE
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EDITORIAL NOTE The Proceedings have
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A. Kaminaga, T. Kaneko, T. Kato, M.
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Improved confinement regimes with O
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Tokamak with strong magnetic field
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Resonant island divertor experiment
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Particle removal capabilities of th
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Inside launch electron cyclotron he
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T. Hjima, S. Ishida, K. Itami, T. I
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T. Yamauchi, I. Nakazawa, K. Hasega
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ARTSIMOVICH MEMORIAL LECTURE C. MAI
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IAEA-CN-50/A-0 5 ceptible to fast r
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IAEA-CN-50/A-0 7 fusion power plant
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FIRST EXPERIMENTS IN TORE SUPRA EQU
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IAEA-CN-50/A-I-1 11 Supra is the fi
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IAEA-CN-50/A-I-1 13 poloidal field
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nee id interfere >res an j-> 1 O E
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i I •O OJ) — '5 c IS 2 HI 1ZI _
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5.' ' *[Wbl t. 3. 2. 1. _ _ X IAEA-
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nl 30 .29 .28 .27 26 .25 .24 .23 22
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IAEA-CN-50/A-I-1 However, reasonabl
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IAEA-CN-50/A-I-1 25 will make it po
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IAEA-CN-50/A-I-2 AN OVERVIEW OF TFT
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IAEA-CN-50/A-I-2 29 inner belt limi
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IAEA-CN-50/A-I-2 31 0 10 20 TOTAL P
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5 DC LU LU 3 - 1 - Q Q A 1 A IAEA-C
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IAEA-CN-50/A-I-2 35 The question ar
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0.20 0.15 0.10 Rp= 2.45 m a = 0.79
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: . • • 1 IAEA-CN-50/A-I-2 39 1
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LATEST JET RESULTS AND FUTURE PROSP
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Parameter Plasma major radius (Ro)
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1500 IAEA-CN-50/A-I-3 45 2 4 I, (MA
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IAEA-CN-50/A-I-3 47 3.0 3.5 Major r
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I 15 10 5 0 IAEA-CN-50/A-I-3 49 V \
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IAEA-CN-50/A-I-3 51 Magnetic measur
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0.8 0.6 IAEA-CN-50/A-I-3 53 -0.2 12
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10 0.5 Pulse No: 15376 n(He')/ne=1.
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IAEA-CN-50/A-I-3 57 5 10 15 [Pt-dW/
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10 E X 4 H-mode y 0.2 0.4 0.6 0.8 1
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IAEA-CN-50/A-I-3 61 where V is the
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IAEA-CN-50/A-I-3 63 confinement deg
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IAEA-CN-50/A-I-3 65 References [1 ]
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68 JT-60 TEAM T. TANAKA, Y. TANAKA,
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Ip = 3.2 MA lp = 2.7 MA JT-60TEAM R
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72 JT-60TEAM E5695 0 1 2 3 4 5 6 7
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74 JT-60TEAM 3 : LIH *3.1HA 2.8HA A
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76 JT-60TEAM 4.5 5.0 5.5 6.0 6.5 7.
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78 JT-60TEAM 250 "(a) 200 150 50 n
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80 JT-60 TEAM The further developme
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STABILITY OF HIGH BETA DISCHARGES I
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IAEA-CN-50/A-II-l 85 a typical plas
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0.5- 0- 0.8- 0.4- 0.0- IAEA-CN-50/A
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IAEA-CN-50/A-IM 89 absence of the l
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s.o • .5 (a) IAEA-CN-50/A-II-l 91
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IAEA-CN-50/A-II-l 93 stability limi
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IAEA-CN-50/A-II-l 95 [6] STAMBAUGH,
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98 OKABAYASHI et al. PBX-M maximall
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100 1 .0 .6 .0 -.2 -.4 -.6 1.11 CO
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102 0.5 OKABAYASHI et al. Indentati
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104 OKABAYASHI et al. 40 30 I I I I
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106 OKABAYASHI et al. §1 •a J i
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108 OKABAYASHI et al. -2 1 • •
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MHD ACTIVITIES AND RELATED IMPURITY
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0.5 IAEA-CN-50/A-H-3 113 FIG. 1. St
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0) a. II E IAEA-CN-50/A-H-3 115 1 1
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IAEA-CN-50/A-II-3 117 These observa
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6. CONCLUSIONS IAEA-CN-50/A-II-3 11
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122 GAO et al. With hydrogen plasma
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124 GAO et al. P—3.0 r—8.5 SHOT
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126 GAO et al. a) M >
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128 GAO et al. 0.6 0.3 0.0 50 100 r
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SUPERLOW DENSITY EXPERIMENT ON HT-6
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IAEA-CN-50/A-n-S-l 133 (b) Hard X-r
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IAEA-CN-SO/A-n-5-l 135 0 0.2 0.4 0:
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IAEA-CN-50/A-D-5-2 INVESTIGATION OF
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0.14 0.10 0.09 0.08 0.05 0.04 0.03
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TABLE I. REDUCTION OF Xe (m 2 -s')
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IAEA-CN-50/A-II-5-2 143 (3) The lin
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146 FUSSMANN et al. Abstract IMPROV
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148 FUSSMANN et al. 150- 100- 50- 0
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150 FUSSMANN et al. UJ 100- 50- + 2
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152 FUSSMANN et al. In both regimes
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154 FUSSMANN et al. reduced. With c
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156 FUSSMANN et al. and consequentl
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THE JET H-MODE AT HIGH CURRENT AND
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IAEA-CN-50/A-IH-2 achieve an H-mode
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6.0 40 2.0 (a) 0l=. 5.0 (c) 0 Pulse
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IAEA-CN-50/A-III-2 165 reduced in t
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IAEA-CN-50/A-HI-2 167 near the firs
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IAEA-CN-50/A-III-2 169 plasmas with
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I 3s H-mode 8
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IAEA-CN-50/A-HI-2 173 The steep tem
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IAEA-CN-50/A-III-2 175 available),
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IAEA-CN-50/A-III-2 177 (xi0 19 m 3
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IAEA-CN-50/A-III-2 179 APPENDIX I T
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IAEA-CN-50/A-IH-2 181 [16] Bishop,
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184 ZARNSTORFT et al. Abstract TRAN
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186 ZARNSTORFF et al. X-ray spectro
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188 ZARNSTORFF et al. 8 CM e CM E 2
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190 ZARNSTORFF et al. 1.5 2.0 2.5 n
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IAEA-CN-50/A-III-4 ENERGY CONFINEME
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o O •
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0.3 0.2- 0.1- 0.0 0.8 0.6 0.4 0.2 0
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00 d f CM I- CQ i o o o IAEA-CN-50/
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E m F LU LJU Z o N_ CE UU o / UJ q
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IAEA-CN-50/A-m-4 203 The TB values
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IAEA-CN-50/A-HM 205 [7] OHYABU, N.,
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208 SUZUKI et al. favourable in a c
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210 SUZUKI etal. As the neutral bea
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212 SUZUKI et al. 3. FOUR-PELLET IN
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HEATING OF PEAKED DENSITY PROFILES
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Yd o g a> - c 4 _n ...— 0) n 12 t
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1.3 I" 1 |03 C 0.5 i: 12 8 4 n - Te
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IAEA-CN-50/A-IV-l 221 1 2 3 Q,_-2ff
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2 q(o) 1- 10 1 U • O • IAEA-CN-
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0.3 f0.2 1 5" 0.1 IAEA-CN-50/A-IV-l
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IAEA-CN-50/A-IV-l 227 APPENDIX I TH
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IAEA-CN-50/A-IV-2 PELLET INJECTION
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3 - 2 - 1 - IAEA-CN-50/A-IV-2 231 1
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0 FIG. 4. ONI O £ at o ID c IC 15
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IAEA-CN-50/A-IV-2 0.35 MW 2.6 MW Ga
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IAEA-CN-50/A-IV-2 237 finement. The
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240 AZIZOV et al. TABLE I. TSP PARA
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242 AZIZOV et al. 65 75 85 95 105 1
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244 AZIZOV et al. 30 40 50 60 Ip =
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HIGH TEMPERATURE EXPERIMENTS AND FU
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IAEA-CN-50/A-IV-4 249 FIG. 1. Data
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P ICRHV 2 IAEA-CN-50/A-IV-4 251 FIG
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IAEA-CN-SO/AIV-4 253 FIG. 4. (a) Di
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IAEA-CN-50/A-IV-4 255 The fusion pe
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258 STRACHAN et al. - Z - 1, Steady
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260 STRACHAN et al. 10' 10' Classic
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262 STRACHAN et al. _ 1 s 10* I : 1
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ENERGY CONFINEMENT WITH AUXILIARY H
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E6950(Bi=4.0T) E6956(Bt = 2.7T) °4
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E7558 • IMPROVED 5 6 TIME (S) IAE
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7.0 E - 1 0.0 7.0 0.0 =— \ n; - T
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IAEA-CN-50/A-V-1 273 [9] SHIMOMURA,
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276 ASHRAF et al. However, the conv
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278
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280 ASHRAF et al. Modulation amplit
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282 KIMet al. (a) (b) 410 420 TIME
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284 KIM et al. (b) o 3
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286 KIM et ah In summary, we observ
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288 KAWAHATA et al. TEXT tokamak, t
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290 KAWAHATA et al. ^ 30 °- S-200.
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292 KAWAHATA et al. 0 6 12 18 24 ra
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294 WOOTTON et al. 1. Particle tran
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296 10' N 10° E gio- 1 O (a) 10" 0
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298 WOOTTON et al. ne=3xl0 19 m- 3
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300 ZURRO et al. FIG. 1. Variation
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302 ZURRO et al. Mo) 6 (10"cm- 3 )
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304 ZURRO et al. -140 50 100 f(kHz)
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TRANSPORT STUDIES ON TFTR UTILIZING
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IAEA-CN-50/A-V-4 309 uses the TRANS
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5 g 30 20 < 2.0 Q § 1.0 i 0.5 10 1
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IAEA-CN-50/A-V-4 313 the laser-blow
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IAEA-CN-S0/A-V-4 315 on working gas
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I0 7 ! 10' 1.8 IAEA-CN-50/A-V-4 317
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IAEA-CN-50/A-V-4 319 The difference
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IAEA-CN-50/A-V-4 321 [12] RADEZTSKY
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324 DONNE et al. E CO o FIG. 1. Sho
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326 DONNE et al. 350 300 250 200 15
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328 DONNE et al. 1.0 0.8 - 0.6 - t
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RECENT TEXTOR RESULTS TEXTOR TEAM (
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IAEA-CN-50/A-VI-l 333 line-radiatio
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IAEA-CN-50/A-VI-l 335 These measure
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q(r] 3- 2- 1- - IAEA-CN-50/A-VI-l 3
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IAEA-CN-50/A-VI-l 339 FIG. 4. Sawto
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IAEA-CN-S0/A-VI-2-1 RESONANT ISLAND
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IAEA-CN-50/A-VI-2-1 343 • «• >
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IAEA-CN-50/A-VI-2-1 345 tons. This
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348 EVANS et al. JIPP T-IIU ( minor
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350 EVANS et al. FIG. 3. High speed
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352 EVANS et al. REFERENCES [1] KAR
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354 BAKOS et al. The radiation of t
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356 BAKOS et al. < + s 5 2 1 5 2 10
- Page 384 and 385:
358 BAKOS et al. REFERENCES [1] BAK
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360 STfiCKEL et al. A quantitative
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362 STOCKEL et al. This and other f
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364 STOCKEL et al. 15 I 10 "" 5 0 (
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GLOBAL POWER BALANCE AND LOCAL HEAT
- Page 395 and 396:
0.5 1 r. (s> Goldston IAEA-CN-50/A-
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IAEA-CN-50/A-VH-l 371 Separate Elec
- Page 399 and 400:
IAEA-CN-50/A-VII-l 373 4. SIMULATIO
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6. CONCLUSIONS IAEA-CN-50/A-VII-l 3
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SAWTOOTH ACTIVITY AND CURRENT DENSI
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-0.6 (keV) 6.6 6.4 6.2 6.0 5.8 IAEA
- Page 407 and 408:
IAEA-CN-50/A-VII-2 381 #15697 . 0 1
- Page 409 and 410:
IAEA-CN-50/A-VII-2 383 radius. In a
- Page 411:
IAEA-CN-50/A-VH-2 385 [11] Goldston
- Page 414 and 415:
388 NAGAYAMA et al. of the magnetic
- Page 416 and 417:
390 NAGAYAMA et al. RECONNECTION RE
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392 NAGAYAMA et al. m/n=2/1 island
- Page 421 and 422:
STABILITY OF TFTR PLASMAS IAEA-CN-5
- Page 423 and 424:
IAEA-CN-50/A-VII-4 397 the electron
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9 8 — 7 6 5 4 - 3 2 X • * • i
- Page 427 and 428:
0.5 ' 0.4 0.3 - 3 0.2 0.1 - 0 —r"
- Page 429 and 430:
0.4 0.3 0.2 0.1 n IAEA-CN-50/A-VH-4
- Page 431 and 432:
Ip(MA) 0.85 0.89 0.9 0.9 1.4 IAEA-C
- Page 433:
IAEA-CN-50/A-VH-4 407 ACKNOWLEDGMEN
- Page 436 and 437:
410 AGIM et al. , , , , I , , , .,
- Page 438 and 439:
412 AGIM et al. to diminish and the
- Page 440 and 441:
414 AGIM et al. Hence, the preventi
- Page 442 and 443:
416 MAUELetal. Small tokamak plasma
- Page 444 and 445:
418 MAUELetal. 3. Mode structure of
- Page 446 and 447:
420 100- 350 MAUEL et al. RAOIUS (c
- Page 449 and 450:
STUDY OF PLASMA MHD STABILITY IN T-
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1.5 _ 1.0 >
- Page 453 and 454:
20 £ 15 - " 10 II 5 5 — ECH IAEA
- Page 455 and 456:
200 - IAEA-CN-S0/A-Vn-7 429 I I I I
- Page 457 and 458:
60 40 20 n / l IAEA-CN-S0/A-VII-7 4
- Page 459 and 460:
LU 30 - 20 - 10 - IAEA-CN-50/A-V1I-
- Page 461 and 462:
as if 200 - 100 -- 20 - I 10 - 15
- Page 463 and 464:
RELAXATION OF q PROFILE IN A HIGH B
- Page 465 and 466:
0 0.5 1.0 IAEA-CN-50/A-VII-8 439 .
- Page 467 and 468:
0 6 12 (Wall) r(cm) IAEA-CN-50/A-VH
- Page 469:
5. CONCLUSIONS IAEA-CN-50/A-VH-8 44
- Page 472 and 473:
446 HENDERetal. An alternative meth
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448 HENDER et al. and Jdriven(max)
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450 HENDER et al. TJ :? Island V 6
- Page 479 and 480:
IAEA-CN-50/A-VII-10 PARTICLE REMOVA
- Page 481 and 482:
IAEA-CN-50/A-VH-10 455 3. POLOIDAL
- Page 483 and 484:
X > o S 6 U- 2- 0 160 • 80 0 1 0.
- Page 485 and 486:
IAEA-CN-S0/A-VH-10 459 between scoo
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THE ROLE OF LIMITERS AND WALLS IN I
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Shine through IAEA-CN-50/A-VH-ll 46
- Page 491 and 492:
3 01 £ "c t=! o E c 12 10 8 6 4 2
- Page 493 and 494:
THE PLASMA BOUNDARY IN JET IAEA-CN-
- Page 495 and 496:
o x CO o 3.0 2.0 .2-0.5 'in c 0.3 1
- Page 497 and 498:
1 10" IAEA-CN-50/A-VI1-12 LCFS LCFS
- Page 499 and 500:
o •£ 0.15 'o = 0.05 C O J3 o 0.0
- Page 501:
IAEA-CN-50/A-VIM2 475 densities, bu
- Page 504 and 505:
478 LEONOV et al. 2. INSTALLATION A
- Page 506 and 507:
480 LEONOV et al. &r (cm) 0.2 -0.2
- Page 508 and 509:
482 LEONOV et al. Uo, at constant p
- Page 510 and 511:
484 CHEETHAM et al. We present simu
- Page 512 and 513:
486 CHEETHAM et al. 0 20 40 60 30 1
- Page 514 and 515:
488 CHEETHAM et al. o LU 3.0 2.8
- Page 516 and 517:
490 CHEETHAM et al. sior CO 111 c o
- Page 518 and 519:
492 CHEETHAM et al. reported from o
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IAEA-CN-S0/A-Vn-15 EXPERIMENTAL RES
- Page 523 and 524:
IAEA-CN-50/A-VII-15 497 800 (a) _ -
- Page 525 and 526:
IAEA-CN-50/A-VII-15 499 formation.
- Page 527 and 528:
300 4X10' 3 - IAEA-CN-50/A-VII-15 5
- Page 529:
CONCLUSION IAEA-CN-50/A-VU-1S 503 W
- Page 532 and 533:
506 KIKUCH1 et al. 1. INTRODUCTION
- Page 534 and 535:
508 KIKUCHI et al. 1.0 o.s 1 — -
- Page 536 and 537:
510 KIKUCHIetal. REFERENCES [1] ZAR
- Page 539 and 540:
STUDY OF DENSITY LIMIT AND LOW q(aL
- Page 541 and 542:
IAEA-CN-50/E-I-l-l 515 1 2 3 4 5 ne
- Page 543 and 544:
/ / IAEA-CN-50/E-I-l-l 517 / / / /
- Page 545 and 546:
(J n 3 o ? 2 i o ' 1 IAEA-CN-50/E-M
- Page 547 and 548:
0.03 - 0.02 - 0.01 - IAEA-CN-50/E-I
- Page 549 and 550:
CO u CO "o IC 7 - 6 — 5 - 4 - 3 1
- Page 551:
IAEA-CN-50/E-I-l-l REFERENCES 52 5
- Page 554 and 555:
528 PRATER et al. 1. INTRODUCTION E
- Page 556 and 557:
530 PRATER et al. 0.8 0.6 0.4 0.2 n
- Page 558 and 559:
532 PRATER et al. 1.5 x 10 19 m~ 3
- Page 560 and 561:
534 PRATER et al. 10 1 0.75 0.25 0.
- Page 562 and 563:
536 PRATER et al. added to 1.25 MW
- Page 564 and 565:
538 PRATER et al. 2.0 1.5 1.0 0.5 /
- Page 567 and 568:
INSIDE LAUNCH ELECTRON CYCLOTRON HE
- Page 569 and 570:
0-20 0-15 a CO. 0-10 0-05 0-0 5S g.
- Page 571 and 572:
IAEA-CN-50/E-I-3 545 0.25 • (a) 1
- Page 573 and 574:
IAEA-CN-50/E-I-3 547 A/3 deduced fr
- Page 575:
IAEA-CN-50/E-I-3 549 ECRH phases as
- Page 578 and 579:
552 MOTOJIMA et al. ICRF and plasma
- Page 580 and 581:
554 MOTOJIMA et al. (a) 0.6SneS0.9x
- Page 582 and 583:
556 MOTOJIMA et al. 0 20 W 60 80 10
- Page 584 and 585:
558 5 4 3 2 1 0 60 40 20 0 la) cuto
- Page 586 and 587:
560 MOTOJIMA et al. 3 0.005 0 0.2 0
- Page 589 and 590:
RF CURRENT DRIVE AND MHD INSTABILIT
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IAEA-CN-50/E-I-5 565 80 PEC
- Page 593 and 594:
of x o o i L_ t IAEA-CN-50/E-I-5 56
- Page 595 and 596:
IAEA-CN-50/E-I-5 569 FIG. 5. Contou
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HEATING AND CONFINEMENT STUDIES WIT
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R 6 IAEA-CN-50/E-IM 0.5 10 1.5 Ne(r
- Page 601 and 602:
IAEA-CN-50/E-II-l FIG. 3. Total rad
- Page 603 and 604:
IAEA-CN-50/E-II-l 577 1.0 2.0 Time
- Page 605 and 606:
IAEA-CN-50/E-II-l 579 TABLE I. SUMM
- Page 607 and 608:
6. SAWTOOTH BEHAVIOUR IAEA-CN-50/E-
- Page 609 and 610:
IAEA-CN-50/E-II-2 LONG PULSE HIGH P
- Page 611 and 612:
IAEA-CN-50/E-II-2 585 23996 2 3 0 U
- Page 613 and 614:
IAEA-CN-50/E-II-2 587 TABLE I. a) C
- Page 615 and 616:
t a ce> 03 E cs o. otal 100 90 80 7
- Page 617 and 618:
IAEA-CN-50/E-H-2 591 and confinemen
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IAEA-CN-50/E-n-3 EXPERIMENTAL AND T
- Page 621 and 622:
§ 1PUTUDE ( $ #•14613 200 (a) 18
- Page 623 and 624:
IAEA-CN-50/E-II-3 597 The results o
- Page 625 and 626:
to V. (a)' • \ \ \ \ \ \ w \'\ \\
- Page 627 and 628:
IAEA-CN-50/E-II-3 601 cccurs progre
- Page 629:
IAEA-CN-50/E-II-3 603 [5] CAMPBELL,
- Page 632 and 633:
606 FUJII et al. 1. INTRODUCTION Se
- Page 634 and 635:
608 140 " (0,0) PIC= l~ 3 MW 120 '
- Page 636 and 637:
610 FUJII et al. ACKNOWLEDGEMENTS T
- Page 638 and 639:
612 BATCHELOR et al. resolves this
- Page 640 and 641:
614 BATCHELOR et al. •J5 1
- Page 642 and 643:
616 BATCHELOR et al. to match asymp
- Page 644 and 645:
618 BATCHELOR et al. of T, R, and C
- Page 646 and 647:
620 BATCHELOR et al. [3] SMITHE, D.
- Page 648 and 649:
622 USHIGUSA et al. 1. INTRODUCTION
- Page 650 and 651:
624 USHIGUSA et al. at f = 1.74 GHz
- Page 652 and 653:
626 USHIGUSA et al. BT (T) (ms) ao
- Page 654 and 655:
628 USHIGUSA et al. [2] JT-60 TEAM,
- Page 656 and 657:
630 ITOH et al. , Breakdown 20 40 6
- Page 658 and 659:
632 ITOH et al. 1.0 20 30 40 50 60
- Page 660 and 661: 634 ITOH et al. 30 |20 a "" 10 n H=
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IAEA-CN-50/E-IV-ll SECOND ELECTRON
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