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Titolo:
ICRF RESULTS IN D-T PLASMAS IN JET AND TFTR AND IMPLICATIONS FOR ITER
Autore:
ADAMS JM; AGELADARAKIS P; ALPER B; ALTMANN H; AMASOV V; ARSHAD S; ANDREW P; ANDREW Y; BAILEY D; BAINBRIDGE N; BALET B; BARANOV Y; BARKER P; BARNSLEY R; BARONIAN M; BARTLETT DV; BELL AC; BERTALOT L; BERTOLINI E; BHATNAGAR V; BICKLEY AJ; BINDSLEV H; BLACKLER K; BOND D; BONICELLI T; BORBA D; BRANDON M; BREGER P; BRELEN H; BRENNAN P; BREWERTON WJ; BROWNE ML; BUDD T; BUDNY R; BURT A; BUSINARO T; BUZIO M; CALDWELLNICHOLLS C; CAMPLING D; CARD P; CHALLIS CD; CHANKIN AV; CHIRON D; CHRISTIANSEN J; CHUILON P; CIRIC D; CLAESEN R; CLARKE HE; CLEMENT S; COAD JP; COFFEY I; CONROY S; CONWAY G; COOPER S; CORDEY JG; CORRIGAN G; COTTRELL G; COX M; COX SJ; CUSACK R; DAVIES N; DAVIES SJ; DAVIS JJ; DEBENEDETTI M; DEESCH H; DEHAAS J; DEKSNIS E; DELIYANAKIS N; DINES A; DMITRENKO SL; DOBBING J; DOLGETTA N; DORLING SE; DOYLE PG; DUQUENOY H; EDWARDS AM; EDWARDS AW; EGEDAL J; EHRENBERG J; EKEDAHL A; ELEVANT T; ELLIS J; ENDLER M; ERENTS SK; ERICSSON G; ESPOSITO B; ERIKSSON LG; FALTER H; FARTHING JW; FICHTMULLER M; FISHPOOL G; FULLARD K; GADEBERG M; GALBIATI L; GIBSON A; GILL RD; GODDEN D; GONDHALEKAR A; GOODALL D; GORMEZANO C; GOWERS C; GROTH M; GUENTHER K; GUO H; HAIGH A; HAIST B; HANCOCK CJ; HARBOUR PJ; HAWKES NC; HAWKES NP; HEMMERICH JL; HENDER T; HOEKZEMA J; HORTON L; HOWMAN A; HUART M; HUGHES TP; HURD F; HUYSMANS G; INGESSON C; INGRAM B; IRVING M; JACQUINOT J; JAECKEL H; JAEGER JF; JARVIS ON; JOHNSON M; JONES EM; JONES TTC; JUNGER JF; JUNIQUE F; JUPEN C; KALLNE J; KAYE A; KEEN BE; KEILHACKER M; KERNER W; KIDD NG; KNIPE S; KONIG R; KOROTKOV A; KRASILNIKOV A; KROM JG; KUPSCHUS P; LASSER R; LAST JR; LAUROTARONI L; LAWSON K; LENNHOLM M; LINGERTAT J; LITAUDON X; LOARER T; LOMAS PJ; LOUGHLIN M; LOWRY C; MAAS AC; MACKLIN B; MAGGI CF; MANTSINEN M; MARCHESE V; MARCUS F; MART J; MARTIN D; MATTHEWS G; MCBRYAN H; MCCRACKEN G; MCCULLEN PA; MEIGS A; MIDDLETON R; MIELE P; MILANI F; MILLS J; MOHANTI R; MONK R; MORGAN P; MURPHY G; NAVE F; NEWBERT G; NIELSEN P; NOLL P; OBERT W; OBRIEN D; OMULLANE M; OORD E; OSTROM R; PAPASTERGIOU S; PARAIL VV; PARKINSON R; PARSONS W; PATEL B; PAYNTER A; PEREVEZENTSEV A; PEACOCK A; PEARCE RJH; PICK MA; PLANCOULAINE J; POGUTSE O; PRENTICE R; PUPPIN S; RADFORD G; REICHLE R; RICCARDO V; RIMINI F; ROCHARD F; ROLFE A; ROQUEMORE AL; ROSS RT; ROSSI A; SADLER G; SAIBENE G; SANTAGUISTINA A; SARTORI R; SAUNDERS R; SCHILD P; SCHMID M; SCHMIDT V; SCHOKKER B; SCHUNKE B; SCOTT SM; SHARAPOV S; SIBLEY A; SIMON M; SIMONINI R; SIPS ACC; SMEULDERS P; SMITH P; SMITH R; SOLDNER F; SPENCE J; SPRINGMAN E; STAGG R; STAMP M; STANGEBY P; START DF; STORK D; STOTT PE; STRACHAN JD; STUBBERFIELD P; SUMMERS D; SVENSSON L; SVENSSON P; TABASSO A; TABELLINI M; TAIT J; TANGA A; TARONI A; TERELLA C; THOMAS PR; THOMSEN K; TRANEUS E; TUBBING B; TWYMAN P; VADGAMA A; VANBELLE P; VLASES GC; VONHELLERMANN M; WADE T; WALTON R; WARD D; WATKINS ML; WATKINS N; WATSON MJ; WHEATLEY M; WILSON D; WINKEL T; YOUNG D; YOUNG ID; YU Q; ZASTROW KD; ZWINGMANN W; MCGUIRE KM; BARNES CW; BATHA SH; BEER MA; BELL MG; BELL RE; BELOV A; BERK HL; BERNABEI S; BITTER M; BREIZMAN BN; BRETZ NL; BUDNY RV; BUSH CE; CALLEN JD; CAUFFMAN S; CHANG CS; CHANG Z; CHENG CZ; COTTELL GA; DARROW DS; DENDY RO; DORLAND W; DUONG H; EFTHIMION PC; ERNST D; EVENSON H; FISCH NJ; FISHER R; FONCK RJ; FOREST CB; FREDRICKSON ED; FU GY; FURTH HP; GOLOBORODKO VY; GORELENKOV NN; GREK B; GRISHAM LR; HAMMETT GW; HANSON GR; HAWRYLUK RJ; HEIDBRINK WW; HERRMANN HW; HERRMANN M; HILL KW; HOGAN J; HOOPER B; HOSEA JC; HOULBERG WA; HUGHES M; HULSE RA; JASSBY DL; JOBES FC; JOHNSON DW; KAITA R; KAYE SM; KESNER J; KIM JS; KISSICK M; KRASILNIKOV AV; KUGEL HW; KUMAR A; LAM NT; LAMARCHE P; LEBLANC B; LEVINTON FM; LUDESCHER C; MACHUZAK J; MAJESKI R; MANICKAM J; MANSFIELD DK; MAUEL ME; MAZZUCATO E; MCCHESNEY J; MCCUNE DC; MCKEE G; MEADE DM; MEDLEY SS; MIKA R; MIKKELSEN DR; MIRNOV SV; MUELLER D; NAGAYAMA Y; NAVRATIL GA; NAZIKIAN R; OKABAYASHI M; OWENS DK; PARK HK; PARK W; PARKS P; PAUL SF; PETROV MP; PHILLIPS CK; PHILLIPS M; PHILLIPS P; RAMSEY AT; REDI MH; REWOLDT G; REZNIK S; ROGERS JH; ROQUEMORE AL; RUSKOV E; SABBAGH SA; SASAO M; SCHILLING G; SCHIVELL J; SCHMIDT GL; SCOTT SD; SENENOV IB; SENKO T; SESNIC S; SKINNER CH; STEVENSON T; STODIEK W; STRACHAN JD; STRAIT EJ; STRATTON BC; SYNAKOWSKI EJ; TAKAHASHI H; TANG WM; TAYLOR G; TERRY JL; THOMPSON ME; VONGOELER S; VONHALLE A; WALTERS RT; WANG S; WHITE RB; WIELAND RM; WILLIAMS M; WILSON JR; WONG KL; WURDEN GA; YAMADA M; YAVORSKI V; YOUNG KM; ZAKHAROV LE; ZARNSTORFF MC; ZWEBEN SJ;
Indirizzi:
JET JOINT UNDERTAKING ABINGDON OX14 3EA OXON ENGLAND
Titolo Testata:
Plasma physics and controlled fusion
, volume: 40, anno: 1998, supplemento:, 8A
pagine: 87 - 103
SICI:
0741-3335(1998)40:<87:IRIDPI>2.0.ZU;2-3
Fonte:
ISI
Lingua:
ENG
Soggetto:
ION-CYCLOTRON RANGE; CURRENT DRIVE;
Tipo documento:
Article
Natura:
Periodico
Settore Disciplinare:
Science Citation Index Expanded
Science Citation Index Expanded
Citazioni:
22
Recensione:
Indirizzi per estratti:
Citazione:
J.M. Adams et al., "ICRF RESULTS IN D-T PLASMAS IN JET AND TFTR AND IMPLICATIONS FOR ITER", Plasma physics and controlled fusion, 40, 1998, pp. 87-103

Abstract

Recent experiments in D-T plasmas on the JET and TFTR tokamaks have evaluated a wide range of ITER relevant ion cyclotron heating scenarios. Absorption of fast waves at the second-harmonic tritium resonance has provided bulk ion heating in TFTR supershots and electron heating inJET H-mode discharges. In JET, deuterium minority heating has generated 1.7 MW of fusion power with 6 MW of radio frequency power giving a record steady-state Q-value of 0.22. Strong bulk ion heating has been achieved with He-3 minority heating with central ion temperatures up to 13 keV being produced in H-modes with a density of 3.6 x 10(19) m(-3) Hydrogen, deuterium and He-3 minority heating methods have produced plasmas with normalized confinement times greater than or equal to that required by ITER for ignition. These H-modes are characterized by small-amplitude, high-frequency ELMs, each of which transports less than1.5% of the plasma energy content to the limiters. The heavy minorityscheme of tritium in a deuterium plasma has been demonstrated both asa heating scheme and a generator of suprathermal neutrons. On TFTR mode conversion to an ion Bernstein wave has achieved central bulk ion heating in supershots with target ion temperatures greater than 20 keV.

ASDD Area Sistemi Dipartimentali e Documentali, Università di Bologna, Catalogo delle riviste ed altri periodici
Documento generato il 05/12/20 alle ore 12:18:44