ION-CYCLOTRON RANGE OF FREQUENCY HEATING ON THE TOKAMAK FUSION TEST REACTOR

被引：9

作者：

TAYLOR, G

BELL, MG

BIGLARI, H

BITTER, M

BRETZ, NL

BUDNY, R

CHEN, L

DARROW, D

EFTHIMION, PC

ERNST, D

FREDRICKSON, E

FU, GY

GREK, B

GRISHAM, L

HAMMETT, G

HOSEA, JC

JANOS, A

JASSBY, D

JOBES, FC

JOHNSON, DW

JOHNSON, LC

MAJESKI, R

MANSFIELD, DK

MAZZUCATO, E

MEDLEY, SS

MUELLER, D

NAZIKIAN, R

OWENS, DK

PAUL, S

PARK, H

PHILLIPS, CK

ROGERS, JH

SCHILLING, G

SCHIVELL, J

SCHMIDT, GL

STEVENS, JE

STRATTON, BC

STRACHAN, JD

SYNAKOWSKI, E

WILSON, JR

WONG, KL

ZWEBEN, SJ

BAYLOR, L

BUSH, CE

GOLDFINGER, RC

HOFFMAN, DJ

MURAKAMI, M

QUALLS, AL

RASMUSSEN, D

MACHUZAK, J

机构：

[1] OAK RIDGE NATL LAB,OAK RIDGE,TN

[2] MIT,CAMBRIDGE,MA 02139

[3] JET JOINT UNDERTAKING,ABINGDON,OXON,ENGLAND

[4] UNIV WISCONSIN,MADISON,WI 53706

来源：

PHYSICS OF FLUIDS B-PLASMA PHYSICS | 1993年 / 5卷 / 07期

关键词：

D O I：

10.1063/1.860728

中图分类号：

O35 [流体力学]; O53 [等离子体物理学];

学科分类号：

070204 ; 080103 ; 080704 ;

摘要：

The complete ion cyclotron range of frequency (ICRF) heating system for the Tokamak Fusion Test Reactor (TFTR) [Fusion Tech. 21, 1324 (1992)], consisting of four antennas and six generators designed to deliver 12.5 MW to the TFTR plasma, has now been installed. Recently a series of experiments has been conducted to explore the effect of ICRF heating on the performance of low recycling, supershot plasmas in minority and nonresonant electron heating regimes. The addition of up to 7.4 MW of ICRF power to full size (R approximately 2.6 m, alpha approximately 0.95 m), helium-3 minority, deuterium supershots heated with up to 30 MW of deuterium neutral-beam injection has resulted in a significant increase in core electron temperature (DELTAT(e)=3-4 keV). Simulations of equivalent deuterium-tritium (D-T) supershots predict that such ICRF heating should result in an increase in beta(alpha)(0) approximately 30%. Direct electron heating has been observed and has been found to be in agreement with theory. The ICRF heating has also been coupled to neutral-beam heated plasmas fueled by frozen deuterium pellets. In addition ICRF heated energetic ion tails have been used to simulate fusion alpha particles in high-recycling plasmas. Up to 11.4 MW of ICRF heating has been coupled into a hydrogen minority, high-recycling helium plasma and the first observation of the toroidal Alfven eigenmode (TAE) instability driven by the energetic proton tail has been made in this regime.

引用

页码：2437 / 2444

页数：8

共 15 条

[1] ON RESONANT DESTABILIZATION OF TOROIDAL ALFVEN EIGENMODES BY CIRCULATING AND TRAPPED ENERGETIC IONS ALPHA-PARTICLES IN TOKAMAKS [J].

BIGLARI, H ;

ZONCA, F ;

CHEN, L .

PHYSICS OF FLUIDS B-PLASMA PHYSICS, 1992, 4 (08) :2385-2388

[2] A LARGE-ORBIT MODEL OF FAST ION SLOWING DOWN DURING ICRH - COMPARISON WITH JET DATA [J].

COTTRELL, GA ;

START, DFH .

NUCLEAR FUSION, 1991, 31 (01) :61-71

[3] ENERGY CONFINEMENT SCALING IN TOKAMAKS - SOME IMPLICATIONS OF RECENT EXPERIMENTS WITH OHMIC AND STRONG AUXILIARY HEATING [J].

GOLDSTON, RJ .

PLASMA PHYSICS AND CONTROLLED FUSION, 1984, 26 (01) :87-103

[4]

HAMMETT GW, 1986, THESIS PRINCETON U

[5] STATUS AND PLANS FOR TFTR [J].

HAWRYLUK, RJ ;

MUELLER, D ;

HOSEA, J ;

BARNES, CW ;

BEER, M ;

BELL, MG ;

BELL, R ;

BIGLARI, H ;

BITTER, M ;

BOIVIN, R ;

BRETZ, NL ;

BUDNY, R ;

BUSH, CE ;

CHEN, L ;

CHENG, CZ ;

COWLEY, S ;

DARROW, DS ;

EFTHIMION, PC ;

FONCK, RJ ;

FREDRICKSON, E ;

FURTH, HP ;

GREENE, G ;

GREK, B ;

GRISHAM, LR ;

HAMMETT, G ;

HEIDBRINK, W ;

HILL, KW ;

HOFFMAN, D ;

HULSE, RA ;

HSUAN, H ;

JANOS, A ;

JASSBY, DL ;

JOBES, FC ;

JOHNSON, DW ;

JOHNSON, LC ;

KAMPERSCHROER, J ;

KESNER, J ;

PHILLIPS, CK ;

KILPATRICK, SJ ;

KUGEL, H ;

LAMARCHE, PH ;

LEBLANC, B ;

MANOS, DM ;

MANSFIELD, DK ;

MARMAR, ES ;

MAZZUCATO, E ;

MCCARTHY, MP ;

MACHUZAK, J ;

MAUEL, M ;

MCCUNE, DC .

FUSION TECHNOLOGY, 1992, 21 (03) :1324-1331

[6] AN INVESTIGATION OF BEAM DRIVEN ALFVEN INSTABILITIES IN THE DIII-D TOKAMAK [J].

HEIDBRINK, WW ;

STRAIT, EJ ;

DOYLE, E ;

SAGER, G ;

SNIDER, RT .

NUCLEAR FUSION, 1991, 31 (09) :1635-1648

[7]

HOSEA JC, 1989, 8TH P TOP C RAD FREQ, P278

[8] HEATING, CURRENT DRIVE AND CONFINEMENT REGIMES WITH THE JET ICRH AND LHCD SYSTEMS [J].

JACQUINOT, J ;

ADAMS, JM ;

ALTMANN, H ;

ANDERSEN, A ;

ANDREW, P ;

ANGELONE, M ;

ARSHAD, SA ;

BAILEY, W ;

BALLANTYNE, P ;

BALET, B ;

BARABASCHI, P ;

BARNSLEY, R ;

BARONIAN, M ;

BARTLETT, DV ;

BELL, AC ;

BENFATTO, I ;

BENALI, G ;

BERGSAKER, H ;

BERTOLDI, P ;

BERTOLINI, E ;

BHATNAGAR, V ;

BICKLEY, AJ ;

BINDSLEV, H ;

BONICELLI, T ;

BOOTH, SJ ;

BOSIA, G ;

BOTMAN, M ;

BOUCHER, D ;

BOUCQUEY, P ;

BREGER, P ;

BRELEN, H ;

BRINKSCHULTE, H ;

BROWN, T ;

BRUSATI, M ;

BUDD, T ;

BURES, M ;

BUSINARO, T ;

BUTCHER, P ;

BUTTGEREIT, H ;

CALDWELLNICHOLS, C ;

CAMPBELL, DJ ;

CARD, P ;

CELENTANO, G ;

CHALLIS, CD ;

CHANKIN, AV ;

CHIRON, D ;

CHRISTIANSEN, J ;

CHRISTODOULOPOULOS, C ;

CHUILON, P ;

CLAESEN, R .

PLASMA PHYSICS AND CONTROLLED FUSION, 1991, 33 (13) :1657-1675

[9]

JAEGER EF, 1992, 9TH P TOP C RAD FREQ, P159

[10]

JAZZUCATO E, 1992, B AM PHYS SOC, V37, P1484

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