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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
- Page 167 and 168: TABLE I. REDUCTION OF Xe (m 2 -s')
- Page 169: IAEA-CN-50/A-II-5-2 143 (3) The lin
- Page 172 and 173: 146 FUSSMANN et al. Abstract IMPROV
- Page 174 and 175: 148 FUSSMANN et al. 150- 100- 50- 0
- Page 176 and 177: 150 FUSSMANN et al. UJ 100- 50- + 2
- Page 178 and 179: 152 FUSSMANN et al. In both regimes
- Page 180 and 181: 154 FUSSMANN et al. reduced. With c
- Page 182 and 183: 156 FUSSMANN et al. and consequentl
- Page 185 and 186: THE JET H-MODE AT HIGH CURRENT AND
- Page 187 and 188: IAEA-CN-50/A-IH-2 achieve an H-mode
- Page 189 and 190: 6.0 40 2.0 (a) 0l=. 5.0 (c) 0 Pulse
- Page 191 and 192: IAEA-CN-50/A-III-2 165 reduced in t
- Page 193 and 194: IAEA-CN-50/A-HI-2 167 near the firs
- Page 195 and 196: IAEA-CN-50/A-III-2 169 plasmas with
- Page 197 and 198: I 3s H-mode 8
- Page 199 and 200: IAEA-CN-50/A-HI-2 173 The steep tem
- Page 201 and 202: IAEA-CN-50/A-III-2 175 available),
- Page 203 and 204: IAEA-CN-50/A-III-2 177 (xi0 19 m 3
- Page 205 and 206: IAEA-CN-50/A-III-2 179 APPENDIX I T
- Page 207: IAEA-CN-50/A-IH-2 181 [16] Bishop,
- Page 210 and 211: 184 ZARNSTORFT et al. Abstract TRAN
- Page 212 and 213: 186 ZARNSTORFF et al. X-ray spectro
- Page 214 and 215: 188 ZARNSTORFF et al. 8 CM e CM E 2
- Page 216 and 217: 190 ZARNSTORFF et al. 1.5 2.0 2.5 n
- Page 220 and 221: 194 BURRELL et al. Abstract ENERGY
- Page 222 and 223: 196 BURRELL et al. used in the init
- Page 224 and 225: 198 BURRELL et al. at the H-mode tr
- Page 226 and 227: 200 BURRELL et al. mode is more sta
- Page 228 and 229: 202 BURRELL et al. However, althoug
- Page 230 and 231: 204 BURRELL et al. > CO t Q < DC X
- Page 233 and 234: CONFINEMENT STUDIES OF THE H-MODE O
- Page 235 and 236: 40 30 ft 20 a 10 50 40 30 20 10 (b)
- Page 237 and 238: 30 10 o : Ohmic Fei9 "1.0-4 • : L
- Page 239: IAEA-CN-50/A-m-S 213 REFERENCES [1]
- Page 242 and 243: 216 JET TEAM temperatures. In those
- Page 244 and 245: 218 JET TEAM 0.1 5 10 Input Power (
- Page 246 and 247: 220 JET TEAM 1.00 0.75 0.50 0.25 0.
- Page 248 and 249: 222 JET TEAM FIG. 6. i)e as a junct
- Page 250 and 251: 224 JET TEAM TABLE I. PULSE NUMBERS
- Page 252 and 253: 226 JET TEAM The occurence of the e
- Page 254 and 255: 228 JET TEAM Acknowledgement The ex
- Page 256 and 257: 230 KAUFMANN et al. over the respec
- Page 258 and 259: 232 KAUFMANN et a\. 16 12 o 8 . At
- Page 260 and 261: 234 KAUFMANN et al. E 1.2 Z 0.8- ?
- Page 262 and 263: 236 KAUFMANN et al. -1 -2-- -3- + w
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,oV 10 10' 10 IAEA-CN-50/A-IV-3 243
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IAEA-CN-50/A-IV-3 245 REFERENCES [1
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248 JET TEAM NBI has been used to o
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250 JET TEAM pulses previously. Tun
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252 JET TEAM 1 5- 0- • 2.5 MeV ne
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254 JET TEAM Major Radius (m) Major
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FUSION PRODUCT MEASUREMENTS ON TFTR
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IAEA-CN-50/A-IV-5 259 to deuterium
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4.5 -.4.. ?3. POLOIDAL PLANE IAEA-C
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IAEA-CN-50/A-IV-5 263 achieved DD T
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266 TSUJ1 et a). 1. INTRODUCTION JT
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268 «+ 3 - 2 1 0 3 2 1 n - - IP IP
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270 TSUJIetal. 2.0 - 1.5 - 1.0 - 0.
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272 TSUJI et al. by the parameter d
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THERMAL WAVE INVESTIGATION OF ANOMA
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IAEA-CN-50/A-V-2-1 277 from the top
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40 30 01 £20 X 1-0 a " \ IAEA-CN-5
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IAEA-CN-50/A-V-2-2 COUPLING OF PART
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IAEA-CN-50/A-V-2-2 283 ASBD(V) FIG.
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'Z 1 IAEA-CN-50/A-V-2-2 285 o o° o
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DENSITY FLUCTUATIONS AND PARTICLE/
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1.0 5 10 15 20 Minor Radius ( cm )
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0.2 0.4 0.6 (a) r/a IAEA-CN-50/A-V-
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TURBULENCE, TRANSPORT AND q MEASURE
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0.01 IAEA-CN-50/A-V-3-2 295 • D H
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2.0 1.8 1.6 1.4 1.2 CT 1.0 0.8 0.6
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IAEA-CN-50/A-V-3-3 COMPARATIVE STUD
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IAEA-CN-50/A-V-3-3 301 TABLE I. COM
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IAEA-CN-50/A-V-3-3 303 85 13S 185 2
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IAEA-CN-50/A-V-3-3 305 the outer ed
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308 EFTHIMION et al. Perturbation t
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310 EFTHIMION et al. 4.0 2.0 - > 1.
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312 EFTHIMION et al. diffusivity ob
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314 EFTHIMION et al. 1.5 - 0 I.O- 0
- Page 342 and 343:
316 EFTHIMION et al. CX Sightlines
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318 EFTHEVHON et al. In the core re
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320 EFTHIMION et al. This explanati
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CURRENT DRIVEN TURBULENCE AND MICRO
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GO 40 20ri HI i i ii 1 \ IAEA-CN-S0
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E 4 tc) IAEA-CN-50/A-V-5 327 500 0
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IAEA-CN-50/A-V-5 329 REFERENCES [1]
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332 TEXTOR TEAM TEXTOR measurements
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334 TEXTOR TEAM The hydrogen recycl
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336 TEXTOR TEAM FIG. I. Sawtooth mo
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338 tv(r) 10 l9 m 3 J -0.2 TEXTOR T
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340 TEXTOR TEAM 11 12 13 !«] 18 19
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342 (a) MOVABLE UMITER DRIVE DeGRAS
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344 DeGRASSIE et al. CJ CO a 23 21
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IAEA-CN-50/A-VI-2-2 RESONANT HELICA
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( b ) 900 1 - 1200- 1100- S iooo- S
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IAEA-CN-50/A-VI-2-2 351 flow by pla
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INVESTIGATIONS ON THE MT-1 TOKAMAK
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IAEA-CN-50/A-VI-3-1 >v MPL J{_ FIG.
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IAEA-CN-50/A-VI-3-1 357 10 12 No. c
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IAEA-CN-50/A-VI-3-2 EDGE TURBULENCE
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3 Q. I I I I IAEA-CN-50/A-V1-3-2 36
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6 m / IAEA-CN-50/A-V1-3-2 363 I N 1
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a. 15 10 IAEA-CN-50/A-VI-3-2 365 s
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368 TARONI et al. report in Section
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370 TARONI et al. 100- q 80- 60- 40
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372 TARONI et al. 3.2 3.4 3.6 Radiu
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374 TARONI et al. t 1st FIG. 4. Res
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376 TARONI et al. [13] ROSS, D.W.,
- Page 404 and 405:
378 CAMPBELL et al. 'slow' partial
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380 -1 hot core Z(m) V) 4.4 4.2 4.0
- Page 408 and 409:
382 CAMPBELL et al. #13430 1 *1 ^.
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384 CAMPBELL et al. above 1, underl
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RESEARCH ON SAWTOOTH OSCILLATIONS A
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2=0.2 cm l ^ ^ f ^ ^ ^ ^ IAEA-CN-50
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-1.8 cm__^jJ/\M^ 0.2 2.2 IAEA-CN-50
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IAEA-CN-50/A-VII-3 393 [6] NAGAYAMA
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396 MANICKAM et al. Abstract STABIL
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398 MANICKAM et al. 1.6 1.0 30 20 1
- Page 426 and 427:
400 MANICKAM et al. 5. TURBULENCE,
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402 MANICKAM et al. sr 3 £.2 1 Bal
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404 MANICKAM et al. FIG. 6. Radial
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406 MANICKAM et al. FIG. 7. Punctur
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IAEA-CN-SO/A-VII-S MAGNETIC TURBULE
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IAEA-CN-50/A-VII-5 411 We compare t
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y
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MEASUREMENT OF MHD INSTABILITIES IN
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10 5 2 1 4 2 +5 0 2.0 1.0 Plasma Cu
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8.0 % 6.0
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IAEA-CN-50/A-VII-6 421 REFERENCES [
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424 BAGDASAROV et al. 0.1 0.2 0.3 t
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426 BAGDASAROV et al. _ 1.0 - 15 r~
- Page 454 and 455:
428 BAGDASAROV el al. 3. RATE OF CU
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430 BAGDASAROV et al. 1.5 1.0 0.5 0
- Page 458 and 459:
432 BAGDASAROV et al. 100 80 60 40
- Page 460 and 461:
434 BAGDASAROV et al. 1.5 - 1.0 CD
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436 BAGDASAROV et a!. suppression f
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438 KIYAMA et al. H profile is in t
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440 transition S 2 0.5 0 KIYAMA et
- Page 468 and 469:
442 KIYAMA et al. 1.0 ne/ne 0.5 ne/
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DISRUPTION CONTROL IN THE TOKAMAK T
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CD • CD IAEA-CN-50/A-VII-9 447 Ti
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340 350 360 Time(ms) IAEA-CN-50/A-V
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IAEA-CN-50/A-VII-9 451 Experiments
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454 DIPPELetal. 1. INTRODUCTION ALT
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456 DIPPEL et al. 100 80 >< 60 < E
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458 DIPPEL et al. four outside faci
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460 DIPPEL et al. REFERENCES [1] CO
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462 McCRACKEN et al. and the way in
- Page 490 and 491:
464 McCRACKEN et al. TABLE I. IMPUR
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466 McCRACKEN et al. 4. CONCLUSIONS
- Page 494 and 495:
468 DE KOCK et al. 2. EXPERIMENTAL
- Page 496 and 497:
470 DE KOCK et al. Profiles in dive
- Page 498 and 499:
472 DE KOCK et al. rrr 3 Ja. eV lio
- Page 500 and 501:
474 DE KOCK et al. discrepancy. How
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INVESTIGATION OF LIMITER SCRAPE-OFF
- Page 505 and 506:
-o.i 0 0 -0.2 .J-\ I I I 2 4 6 8 ar
- Page 507 and 508:
m 2 3 - 4 > o 3 2 - _ 5 -50 -100 |
- Page 509 and 510:
IAEA-CN-50/A-VII-14 MEASUREMENTS OF
- Page 511 and 512:
IAEA-CN-50/A-VII-14 have arbitrary
- Page 513 and 514:
IAEA-CN-50/A-VH-14 487 TABLE I. SOM
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IAEA-CN-50/A-VII-14 489 r =-D Vn +r
- Page 517 and 518:
IAEA-CN-50/A-VII-14 491 thermonucle
- Page 519:
IAEA-CN-50/A-VIM4 493 [11] Christia
- Page 522 and 523:
496 BOLTON et al. 70 60 50- £ 40
- Page 524 and 525:
498 BOLTON et al. * 3 - 5 T 3 - •
- Page 526 and 527:
500 BOLTON et al. SMM 1.0 (s) 0.5 t
- Page 528 and 529:
502 BOLTON et al. The Tokamak de Va
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CHARACTERISTICS OF BANANA REGIME CO
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o sz. It 11! IAEA-CN-50/A-VII-16 50
- Page 535 and 536:
IAEA-CN-50/A-VIM6 509 The estimated
- Page 537:
PLASMA HEATING AND CURRENT DRIVE (S
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514 ALIKAEVetal. 1. INTRODUCTION Th
- Page 542 and 543:
516 ALIKAEVetal. The profiles of ne
- Page 544 and 545:
518 ALIKAEV et al. 4 ~ S " 3 1 b
- Page 546 and 547:
520 ALIKAEV et al. u n < 3 - 2 r ,
- Page 548 and 549:
522 ALIKAEV et al. FIG. 10. Diamagn
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524 ALIKAEV et al. 3.2 _ ^ 3.1 CO 3
- Page 553 and 554:
IAEA-CN-50/E-I-2 ELECTRON CYCLOTRON
- Page 555 and 556:
IAEA-CN-50/E-I-2 529 2. ELECTRON CY
- Page 557 and 558:
4.0 3.0 2.0 1.0 0.0 6.0 4.0- 2.0- 0
- Page 559 and 560:
IAEA-CN-50/E-I-2 3. CONFINEMENT WIT
- Page 561 and 562:
2.0 . P« (MW) \PNBI 800 1000 1200
- Page 563 and 564:
S Q o ERH a. HI Q - AMPL 80- 60- 40
- Page 565:
IAEA-CN-50/E-I-2 539 The ELM-free p
- Page 568 and 569:
542 ASHRAF et al. experiments on FT
- Page 570 and 571:
544 1.1 ASHRAF et al. Absorption zo
- Page 572 and 573:
546 ASHRAF et al. cm from the magne
- Page 574 and 575:
548 ASHRAF et al. 20 4 I ,5 £ 10 .
- Page 577 and 578:
HIGH POWER ECRH AND ICRF HEATING EX
- Page 579 and 580:
IAEA-CN-50/E-I-4 553 0-1 Jr FIG. 2.
- Page 581 and 582:
1.2. ICRF experiments IAEA-CN-50/E-
- Page 583 and 584:
IAEA-CN-50/E-I-4 557 This effect mi
- Page 585 and 586:
100 50 4th 2.0 3,0 IAEA-CN-50/E-I-4
- Page 587:
IAEA-CN-50/E-I-4 561 [3] SATO, M.,
- Page 590 and 591:
564 * 0 2 ' 0 20 ? I 0 § 0 50 100
- Page 592 and 593:
566 TANAKA et al. and one order sma
- Page 594 and 595:
568 TANAKA et al. Figures 3(a)-(i)
- Page 596 and 597:
570 TANAKA et al. [2] TANAKA, S., e
- Page 598 and 599:
572 WEYNANTS et al. Important aniso
- Page 600 and 601:
574 WEYNANTS et al. 05- (c) V. V DI
- Page 602 and 603:
576 WEYNANTS et al. 3 eff.o 2 1 •
- Page 604 and 605:
578 WEYNANTS et al. 2.06 2.10 2.14
- Page 606 and 607:
580 20 EH.rh [kJl WEYNANTS et al. 3
- Page 608 and 609:
582 WEYNANTS et al. [II] JACQUINOT,
- Page 610 and 611:
584 NOTERDAEME et al. in the start-
- Page 612 and 613:
586 NOTERDAEME et al.
- Page 614 and 615:
588 NOTERDAEME et al. with the time
- Page 616 and 617:
590 NOTERDAEME et al. the small imp
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592 NOTERDAEME et al. 13] NOTERDAEM
- Page 620 and 621:
594 START et al. sustained for 1.2
- Page 622 and 623:
596 START et al. 300 200 Te (eV) 10
- Page 624 and 625:
598 START et al. GAMMA YIELD COUNTS
- Page 626 and 627:
600 START et al. 45 t(S) Onset of s
- Page 628 and 629:
602 START et al. and the energy con
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SECOND HARMONIC ICRF HEATING EXPERI
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,01) |c= 0.4 0.2 0 2 I 0 3 2 • 1
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IAEA-CN-50/E-II-4 609 1 1 I 1 I 1 1
- Page 637 and 638:
IAEA-CN-50/E-II-5 FULL-WAVE MODELIN
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IAEA-CN-50/E-II-5 613 When Eq. (4)
- Page 641 and 642:
IAEA-CN-50/E-II-5 615 the equations
- Page 643 and 644:
IAEA-CN-50/E-H-5 617 I i i i I I I
- Page 645 and 646:
1.0 0.9 0.8 0.7 1 0.6 10.5 1 0.4 0.
- Page 647 and 648:
LOWER HYBRID EXPERIMENTS IN JT-60 K
- Page 649 and 650:
- 2t ji IplMA) OIV LIM 0.7 - A 1.0
- Page 651 and 652:
'E - 3 "2 2 - 2 le? Ip(MA) 0.7 1.0
- Page 653 and 654:
IAEA-CN-SO/E-m-l 627 circles are da
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STEADY STATE CURRENT DRIVE BY LOWER
- Page 657 and 658:
45 2 30 a. " 15 0 7 e s 9 2.5 : ic
- Page 659 and 660:
1/1 z 3 163- IAEA-CN-50/E-III-2 633
- Page 661 and 662:
50* 70" 90' 110" 130' 150' 170* A*
- Page 663 and 664:
IAEA-CN-50/E-III-3 LOWER HYBRID HEA
- Page 665 and 666:
1.0 0.8 - _ OOnrr IAEA-CN-50/E-HI-3
- Page 667 and 668:
-4 IAEA-CN-50/E-HI-3 641 FIG. 3. Sa
- Page 669:
IAEA-CN-50/E-III-3 643 stronger emi
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646 BUDNIKOV et al. 100 50 34 36 38
- Page 674 and 675:
648 BUDN1K0V et al. 2 E (keV) F/G.
- Page 676 and 677:
650 BUDNIKOV et a). » 4 t 660 f (M
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652 BUDNIKOV et al. •a I -a 10' 1
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654 BUDNIKOV etal. 0.5 CM* ne(x10 1
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656 SCOTT et al. 1. Introduction A
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658 SCOTT et al. FIG. 2. Central ro
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660 SCOTT et al. 30 25 20 - / 1 10
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662 SCOTT et al. The TFTR "supersho
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664 SCOTT et al. Z3 5. 2 ? 1 Ge XXX
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666 SCOTT et al. to drive most or a
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DIII-D NEUTRAL BEAM CURRENT DRIVE E
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IAEA-CN-50/E-III-6 671 2. NEUTRAL B
- Page 699 and 700:
3.0 0.0 0.2 0.0 0.2 0.0 30.0 SXR (r
- Page 701 and 702:
IAEA-CN-50/E-HKS 675 obtained and i
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0.5- o.o -1 0.2- 0.0- 1.0- 0.6- 4.0
- Page 705:
IAEA-CN-50/E-HI-6 679 [17] STRAIT,
- Page 708 and 709:
682 OHKAWA et al. 2. CURRENT DRIVE
- Page 710 and 711:
684 OHKAWA et al. In terms of the h
- Page 712 and 713:
686 OHKAWA et al. regime. For ut <
- Page 714 and 715:
688 OHKAWA et al. while holding the
- Page 717 and 718:
ICRF HEATING ON THE TFTR TOKAMAK FO
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IAEA-CN-50/E-IV-l 693 4 He plasma a
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300 IAEA-CN-50/E-IV-l 695 -10 o 10
- Page 723:
5. Conclusions IAEA-CN-50/E-IV-l 69
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700 ASKINASI et al. 0 120 , 60 RF 1
- Page 728 and 729:
702 ASKINASI et al. 240 - \ -3 \ J
- Page 730 and 731:
704 ASKINASI et al. TABLE I. LOCATI
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706 ASKINASI et al. REFERENCES [1]
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708 KASILOV et al. current drive me
- Page 736 and 737:
710 KASILOV et al. to the two-ion h
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712 KASILOV et al. with the FW exci
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714 KASILOV et al. Similarly, takin
- Page 742 and 743:
716 KASILOV et al. If the resonant
- Page 744 and 745:
718 KASILOVetal. If eh < e,, Eq. (1
- Page 747 and 748:
IAEA-CN-50/E-IV-4 FULL WAVE SOLUTIO
- Page 749 and 750:
with IAEA-CN-50/E-IV-4 723 H;(r) =
- Page 751 and 752:
3000 m 2000 1000 0 1AEA-CN-50/E-IV-
- Page 753 and 754:
IAEA-CN-50/E-IV-5 EXPERIMENTS ON EF
- Page 755 and 756:
IAEA-CN-50/E-IV-5 729 0 ""'"10 20 3
- Page 757 and 758:
IAEA-CN-50/E-IV-5 731 A, for a net
- Page 759 and 760:
IMPROVEMENT OF RF CURRENT DRIVE DEN
- Page 761 and 762:
IAEA-CN-S0/E-IV-6 735 A fast wave (
- Page 763 and 764:
IAEA-CN-50/E-IV-6 737 electrons. Th
- Page 765 and 766:
IAEA-CN-50/E-IV-7 NON-INDUCTIVE STA
- Page 767 and 768:
300 200 - 100 - IAEA-CN-50/E-IV-7 7
- Page 769 and 770:
IAEA-CN-50/E-IV-7 743 are related t
- Page 771 and 772:
IAEA-CN-50/E-IV-7 745 TABLE I. CHAR
- Page 773 and 774:
ACCESS TO SECOND STABILITY VIA PROF
- Page 775 and 776:
6 5 4 w 3 2 1 0 IAEA-CN-50/E-IV-8 7
- Page 777 and 778:
IAEA-CN-50/E-IV-8 751 10 15 20 RF C
- Page 779 and 780:
IAEA-CN-50/E-IV-9 ELECTRON CYCLOTRO
- Page 781 and 782:
IAEA-CN-50/EIV-9 755 The second mec
- Page 783:
IAEA-CN-50/E-IV-9 757 In our case,
- Page 786 and 787:
760 COHEN et al. concept of using p
- Page 788 and 789:
762 COHEN et al. TABLE I. REPRESENT
- Page 790 and 791:
764 COHEN et al. 20 ECH power P (MW
- Page 792 and 793:
766 COHEN et al. [3] COHEN, B.I., e
- Page 794 and 795:
768 electron velocity distribution
- Page 796 and 797:
770 PESlC -02 FIG. 2. Real and imag
- Page 798 and 799:
772 PESlC FIG. 5. Real and imaginar
- Page 801 and 802:
CHAIRMEN OF SESSIONS Session A-I J.
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INTERNATIONAL ATOMIC ENERGY AGENCY
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