Search results for "JET hybrid plasma"

showing 4 items of 4 documents

The Role of Combined ICRF and NBI Heating in JET Hybrid Plasmas in Quest for High D-T Fusion Yield

2017

Combined ICRF and NBI heating played a key role in achieving the world-record fusion yield in the first deuterium-tritium campaign at the JET tokamak in 1997. The current plans for JET include new experiments with deuterium-tritium (D-T) plasmas with more ITER-like conditions given the recently installed ITER-like wall (ILW). In the 2015-2016 campaigns, significant efforts have been devoted to the development of high-performance plasma scenarios compatible with ILW in preparation of the forthcoming D-T campaign. Good progress was made in both the inductive (baseline) and the hybrid scenario: a new record JET ILW fusion yield with a significantly extended duration of the high-performance pha…

TokamakQC1-999Nuclear engineering7. Clean energy01 natural sciencesFusió nuclear controlada010305 fluids & plasmasPlasma currentlaw.inventionlawNBI heating0103 physical sciencesNeutron010306 general physicsFusionFusion reactionsHigh D-T Fusion YieldPhysicsFusionJet (fluid):Física [Àrees temàtiques de la UPC]ICRFbusiness.industryPhysicsElectrical engineeringPlasmaYield (chemistry)Beta (plasma physics)JET Hybrid PlasmasNBI Heatingbusiness
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Optimising the use of ICRF waves in JET hybrid plasmas for high fusion yield

2017

In the recent JET experimental campaign, good progress was made in the development of high-performance plasma scenarios compatible with the ITER-like wall (ILW). This paper reports on the optimisation of the use of ion cyclotron resonance frequency (ICRF) waves for the hybrid scenario in combination with neutral beam injection. The hybrid scenario is a candidate for ITER long-pulse operation. The combined NBI+ICRF power was increased to 33 MW and the record JET ILW fusion yield, averaged over 100 ms, from 2.3x1016 neutrons/s to 2.9x1016 neutrons/s with respect to the previous 2014 JET ILW fusion record. Impurity control with ICRF waves was one of the key means for extending the duration of …

JET hybrid plasmasICRFPhysics::Plasma Physics
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Modelling of combined ICRF and NBI heating in JET hybrid plasmas

2017

During the 2015-2016 JET campaigns many efforts have been devoted to the exploration of high performance plasma scenarios envisaged for ITER operation. In this paper we model the combined ICRF+NBI heating in selected key hybrid discharges using PION. The antenna frequency was tuned to match the cyclotron frequency of minority hydrogen (H) at the center of the tokamak coinciding with the second harmonic cyclotron resonance of deuterium. The modelling takes into account the synergy between ICRF and NBI heating through the second harmonic cyclotron resonance of deuterium beam ions which allows us to assess its impact on the neutron rate RNT. We evaluate the influence of H concentration which w…

TokamakQC1-999CyclotronCyclotron resonance01 natural sciences7. Clean energyFusió nuclear controlada010305 fluids & plasmaslaw.inventionlawNBI heating0103 physical sciencesNeutron010306 general physicsFusion reactionsICRF and NBI heatingJet (fluid)ICRF:Física [Àrees temàtiques de la UPC]ChemistryPhysicsPlasmaFusion powerComputational physicsJET hybrid plasmasHarmonicAtomic physicsEPJ Web of Conferences
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Modelling of JET hybrid plasmas with emphasis on performance of combined ICRF and NBI heating

2018

International audience; During the 2015--2016 JET campaigns, many efforts have been devoted to the exploration of high-performance plasma scenarios envisaged for DT operation in JET. In this paper, we review various key recent hybrid discharges and model the combined ICRF NBI heating. These deuterium discharges with deuterium beams had the ICRF antenna frequency tuned to match the cyclotron frequency of minority H at the centre of the tokamak coinciding with the second harmonic cyclotron resonance of D. The modelling takes into account the synergy between ICRF and NBI heating through the second harmonic cyclotron resonance of D beam ions, allowing us to assess its impact on the neutron rate…

Nuclear and High Energy PhysicsLight nucleusfusionPlasma heatingicrf heatingNuclear engineeringion-cyclotron rangeCyclotronJET hybrid plasmaICRF heating; NBI heating; JET hybrid plasmas; fusion enhancement; ION-CYCLOTRON RANGE; ENHANCEMENT; FUSION7. Clean energy01 natural sciences010305 fluids & plasmaslaw.inventionICRF heatingfusion enhancementdt plasmaslawNBI heating0103 physical sciences010306 general physicsjet hybrid plasmastokamakenhancementfusion enhancement; ICRF heating; JET hybrid plasmas; NBI heatingnbi heatingJet (fluid)Emphasis (telecommunications)PlasmaCondensed Matter PhysicsJET hybrid plasmasSettore ING-IND/20 - Misure e Strumentazione NucleariresonanceEnvironmental science[PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph]
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