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Publikationer av Thomas Jonsson

Refereegranskade

Artiklar

[1]
R. Ochoukov et al., "Analysis of high frequency Alfven eigenmodes observed in ASDEX Upgrade plasmas in the presence of RF-accelerated NBI ions," Nuclear Fusion, vol. 63, no. 4, s. 046001, 2023.
[2]
B. Zaar, T. Jonsson och P. Vallejos, "Iterative method for including parallel dispersion for RF waves in two-dimensional axisymmetric finite element models," AIP Conference Proceedings, vol. 2984, no. 1, s. 130003-1-130003-6, 2023.
[3]
J. Vega et al., "Disruption prediction with artificial intelligence techniques in tokamak plasmas," Nature Physics, vol. 18, no. 7, s. 741-750, 2022.
[4]
S. Mazzi et al., "Enhanced performance in fusion plasmas through turbulence suppression by megaelectronvolt ions," Nature Physics, vol. 18, no. 7, s. 776-782, 2022.
[5]
D. Van Eester et al., "Maximising D - T fusion power by optimising the plasma composition and beam choice in JET," Plasma Physics and Controlled Fusion, vol. 64, no. 5, 2022.
[6]
J. Mailloux et al., "Overview of JET results for optimising ITER operation," Nuclear Fusion, vol. 62, no. 4, 2022.
[7]
M. Fitzgerald et al., "Toroidal Alfven eigenmode stability in JET internal transport barrier afterglow experiments," Nuclear Fusion, vol. 62, no. 10, 2022.
[8]
D. Van Eester et al., "A fast tool for ICRH plus NBI modelling within the EU-IM framework," Journal of Plasma Physics, vol. 87, no. 2, 2021.
[9]
S. Sipila et al., "ASCOT orbit-following simulations of ion cyclotron heating with synthetic fast ion loss diagnostic : a first application to ASDEX Upgrade," Nuclear Fusion, vol. 61, no. 8, 2021.
[10]
P. Huynh et al., "European transport simulator modeling of JET-ILW baseline plasmas : predictive code validation and DTE2 predictions," Nuclear Fusion, vol. 61, no. 9, 2021.
[11]
I. Casiraghi et al., "First principle-based multi-channel integrated modelling in support of the design of the Divertor Tokamak Test facility," Nuclear Fusion, vol. 61, no. 11, 2021.
[12]
C. Schuster et al., "Moment-preserving and mesh-adaptive reweighting method for rare-event sampling in Monte-Carlo algorithms," Computer Physics Communications, vol. 267, 2021.
[13]
Y. O. Kazakov, T. Jonsson och N. Wendler, "Physics and applications of three-ion ICRF scenarios for fusion research," Physics of Plasmas, vol. 28, no. 2, 2021.
[14]
M. Schneider et al., "Simulation of heating and current drive sources for scenarios of the ITER research plan," Nuclear Fusion, vol. 61, no. 12, 2021.
[15]
P. Mantica et al., "The role of electron-scale turbulence in the JET tokamak : experiments and modelling," Nuclear Fusion, vol. 61, no. 9, 2021.
[16]
S. Olasz et al., "Validity of models for Dreicer generation of runaway electrons in dynamic scenarios," Nuclear Fusion, vol. 61, no. 6, 2021.
[17]
S. Moradi et al., "Global scaling of the heat transport in fusion plasmas," Physical Review Research, vol. 2, 2020.
[18]
P. Vallejos et al., "Iterative addition of finite Larmor radius effects to finite element models using wavelet decomposition," Plasma Physics and Controlled Fusion, vol. 62, no. 4, 2020.
[19]
F. J. Casson et al., "Predictive multi-channel flux-driven modelling to optimise ICRH tungsten control and fusion performance in JET," Nuclear Fusion, vol. 60, no. 6, 2020.
[20]
P. Zanca et al., "A power-balance model of the density limit in fusion plasmas : application to the L-mode tokamak," Nuclear Fusion, vol. 59, no. 12, 2019.
[21]
S. Pamela et al., "A wall-aligned grid generator for non-linear simulations of MHD instabilities in tokamak plasmas," Computer Physics Communications, vol. 243, s. 41-50, 2019.
[22]
M. Garcia-Munoz et al., "Active control of Alfven eigenmodes in magnetically confined toroidal plasmas," Plasma Physics and Controlled Fusion, vol. 61, no. 5, 2019.
[23]
S. S. Henderson et al., "An assessment of nitrogen concentrations from spectroscopic measurements in the JET and ASDEX upgrade divertor," Nuclear Materials and Energy, vol. 18, s. 147-152, 2019.
[24]
A. Drenik et al., "Analysis of the outer divertor hot spot activity in the protection video camera recordings at JET," Fusion engineering and design, vol. 139, s. 115-123, 2019.
[25]
F. P. Orsitto et al., "Approximate analytic expressions using Stokes model for tokamak polarimetry and their range of validity," Plasma Physics and Controlled Fusion, vol. 61, no. 5, 2019.
[26]
J. Romazanov et al., "Beryllium global erosion and deposition at JET-ILW simulated with ERO2.0," Nuclear Materials and Energy, vol. 18, s. 331-338, 2019.
[27]
G. Telesca et al., "COREDIV numerical simulation of high neutron rate JET-ILW DD pulses in view of extension to JET-ILW DT experiments," Nuclear Fusion, vol. 59, no. 5, 2019.
[28]
D. D. Carvalho et al., "Deep neural networks for plasma tomography with applications to JET and COMPASS," Journal of Instrumentation, vol. 14, 2019.
[29]
B. Labit et al., "Dependence on plasma shape and plasma fueling for small edge-localized mode regimes in TCV and ASDEX Upgrade," Nuclear Fusion, vol. 59, no. 8, 2019.
[30]
A. Widdowson et al., "Deposition of impurity metals during campaigns with the JET ITER-like Wall," Nuclear Materials and Energy, vol. 19, s. 218-224, 2019.
[31]
V. S. Neverov et al., "Determination of isotope ratio in the divertor of JET-ILW by high-resolution H alpha spectroscopy : H-D experiment and implications for D-T experiment," Nuclear Fusion, vol. 59, no. 4, 2019.
[32]
M. Salewski et al., "Diagnostic of fast-ion energy spectra and densities in magnetized plasmas," Journal of Instrumentation, vol. 14, 2019.
[33]
D. R. Hatch et al., "Direct gyrokinetic comparison of pedestal transport in JET with carbon and ITER-like walls," Nuclear Fusion, vol. 59, no. 8, 2019.
[34]
J. Denis et al., "Dynamic modelling of local fuel inventory and desorption in the whole tokamak vacuum vessel for auto-consistent plasma-wall interaction simulations," Nuclear Materials and Energy, vol. 19, s. 550-557, 2019.
[35]
A. ,. V. Chankin et al., "EDGE2D-EIRENE simulations of the influence of isotope effects and anomalous transport coefficients on near scrape-off layer radial electric field," Plasma Physics and Controlled Fusion, vol. 61, no. 7, 2019.
[36]
E. Trier et al., "ELM-induced cold pulse propagation in ASDEX Upgrade," Plasma Physics and Controlled Fusion, vol. 61, no. 4, 2019.
[37]
P. Vallejos et al., "Effect of poloidal phasing on ion cyclotron resonance heating power absorption," Nuclear Fusion, vol. 59, no. 7, 2019.
[38]
F. Nabais et al., "Energetic ion losses 'channeling' mechanism and strategy for mitigation," Plasma Physics and Controlled Fusion, vol. 61, no. 8, 2019.
[39]
P. Vallejos et al., "Erratum : Effect of poloidal phasing on ion cyclotron resonance heating power absorption (Nuclear Fusion (2019) 59 (076022) DOI: 10.1088/1741-4326/ab1ab7/meta)," Nuclear Fusion, vol. 59, no. 9, 2019.
[40]
J. Garcia et al., "First principles and integrated modelling achievements towards trustful fusion power predictions for JET and ITER," Nuclear Fusion, vol. 59, no. 8, 2019.
[41]
M. Fitzgerald et al., "Full-orbit and drift calculations of fusion product losses due to explosive fishbones on JET," Nuclear Fusion, vol. 59, no. 1, 2019.
[42]
C. Silva et al., "Geodesic acoustic mode evolution in L-mode approaching the L-H transition on JET," Plasma Physics and Controlled Fusion, vol. 61, no. 7, 2019.
[43]
M. Kotschenreuther et al., "Gyrokinetic analysis and simulation of pedestals to identify the culprits for energy losses using 'fingerprints'," Nuclear Fusion, vol. 59, no. 9, 2019.
[44]
V. Aslanyan et al., "Gyrokinetic simulations of toroidal Alfven eigenmodes excited by energetic ions and external antennas on the Joint European Torus," Nuclear Fusion, vol. 59, no. 2, 2019.
[45]
V. Bobkov et al., "Impact of ICRF on the scrape-off layer and on plasma wall interactions : From present experiments to fusion reactor," Nuclear Materials and Energy, vol. 18, s. 131-140, 2019.
[46]
F. Eriksson et al., "Impact of fast ions on density peaking in JET : fluid and gyrokinetic modeling," Plasma Physics and Controlled Fusion, vol. 61, no. 7, 2019.
[47]
D. Borodin et al., "Improved ERO modelling of beryllium erosion at ITER upper first wall panel using JET-ILW and PISCES-B experience," Nuclear Materials and Energy, vol. 19, s. 510-515, 2019.
[48]
T. Vasilopoulou et al., "Improved neutron activation dosimetry for fusion," Fusion engineering and design, vol. 139, s. 109-114, 2019.
[49]
F. Eriksson et al., "Interpretative and predictive modelling of Joint European Torus collisionality scans," Plasma Physics and Controlled Fusion, vol. 61, no. 11, 2019.
[50]
J. Likonen et al., "Investigation of deuterium trapping and release in the JET ITER-like wall divertor using TDS and TMAP," Nuclear Materials and Energy, vol. 19, s. 166-178, 2019.
[51]
J. Likonen et al., "Investigation of deuterium trapping and release in the JET divertor during the third ILW campaign using TDS," Nuclear Materials and Energy, vol. 19, s. 300-306, 2019.
[52]
C. F. Maggi et al., "Isotope identity experiments in JET-ILW with H and D L-mode plasmas," Nuclear Fusion, vol. 59, no. 7, 2019.
[53]
E. Rachlew et al., "Measuring fast ions in fusion plasmas with neutron diagnostics at JET," Plasma Physics and Technology, vol. 61, no. 1, s. 014027, 2019.
[54]
K. Heinola et al., "Modelling of the effect of ELMs on fuel retention at the bulk W divertor of JET," Nuclear Materials and Energy, vol. 19, s. 397-402, 2019.
[55]
A. Kirschner et al., "Modelling of tungsten erosion and deposition in the divertor of JET-ILW in comparison to experimental findings," Nuclear Materials and Energy, vol. 18, s. 239-244, 2019.
[56]
Z. Stancar et al., "Multiphysics approach to plasma neutron source modelling at the JET tokamak," Nuclear Fusion, vol. 59, no. 9, 2019.
[57]
V. G. Kiptily et al., "On a fusion born triton effect in JET deuterium discharges with H-minority ion cyclotron range of frequencies heating," Nuclear Fusion, vol. 59, no. 6, 2019.
[58]
E. Joffrin et al., "Overview of the JET preparation for deuterium-tritium operation with the ITER like-wall," Nuclear Fusion, vol. 59, no. 11, 2019.
[59]
K. D. Lawson et al., "Population modelling of the He II energy levels in tokamak plasmas : I. Collisional excitation model," Journal of Physics B : Atomic, Molecular and Optical Physics, vol. 52, no. 4, 2019.
[60]
A. Krivska et al., "RF sheath modeling of experimentally observed plasma surface interactions with the JET ITER-Like Antenna," Nuclear Materials and Energy, vol. 19, s. 324-329, 2019.
[61]
B. P. van Milligen et al., "Radial variation of heat transport in L-mode JET discharges," Nuclear Fusion, vol. 59, no. 5, 2019.
[62]
T. C. Blanken et al., "Real-time plasma state monitoring and supervisory control on TCV," Nuclear Fusion, vol. 59, no. 2, 2019.
[63]
B. Cannas et al., "Recurrence Plots for Dynamic Analysis of Type-I ELMs at JET With a Carbon Wall," IEEE Transactions on Plasma Science, vol. 47, no. 4, s. 1871-1877, 2019.
[64]
N. Bonanomi et al., "Role of fast ion pressure in the isotope effect in JET L-mode plasmas," Nuclear Fusion, vol. 59, no. 9, 2019.
[65]
D. Carnevale et al., "Runaway electron beam control," Plasma Physics and Controlled Fusion, vol. 61, no. 1, 2019.
[66]
G. I. Pokol et al., "Runaway electron modelling in the self-consistent core European Transport Simulator," Nuclear Fusion, vol. 59, no. 7, 2019.
[67]
L. Garzotti et al., "Scenario development for D-T operation at JET," Nuclear Fusion, vol. 59, no. 7, 2019.
[68]
J. Joly et al., "Self-consistent modelling of heating synergy between NBI and ICRH in JET deuterium plasmas," Plasma Physics and Controlled Fusion, vol. 61, no. 7, 2019.
[69]
M. Weiland et al., "Simulation of neutron emission in neutral beam injection heated plasmas with the real-time code RABBIT," Nuclear Fusion, vol. 59, no. 8, 2019.
[70]
J. Varje et al., "Synthetic diagnostic for the JET scintillator probe lost alpha measurements," Journal of Instrumentation, vol. 14, 2019.
[71]
C. Makepeace et al., "The effect of beryllium oxide on retention in JET ITER-like wall tiles," Nuclear Materials and Energy, vol. 19, s. 346-351, 2019.
[72]
V. Huber et al., "The software and hardware architecture of the real-time protection of in-vessel components in JET-ILW," Nuclear Fusion, vol. 59, no. 7, 2019.
[73]
W. Tierens et al., "Validation of the ICRF antenna coupling code RAPLICASOL against TOPICA and experiments," Nuclear Fusion, vol. 59, no. 4, 2019.
[74]
P. Batistoni et al., "14 MeV calibration of JET neutron detectors-phase 1 : calibration and characterization of the neutron source," Nuclear Fusion, vol. 58, no. 2, 2018.
[75]
P. Batistoni et al., "14 MeV calibration of JET neutron detectors-phase 2 : in-vessel calibration," Nuclear Fusion, vol. 58, no. 10, 2018.
[76]
D. Hu et al., "3D non-linear MHD simulation of the MHD response and density increase as a result of shattered pellet injection," Nuclear Fusion, vol. 58, no. 12, 2018.
[77]
A. Pau et al., "A First Analysis of JET Plasma Profile-Based Indicators for Disruption Prediction and Avoidance," IEEE Transactions on Plasma Science, vol. 46, no. 7, s. 2691-2698, 2018.
[78]
C. E. Myers et al., "A multi-machine scaling of halo current rotation," Nuclear Fusion, vol. 58, no. 1, 2018.
[79]
G. Stankunas et al., "Activation inventories after exposure to dd/dt neutrons in safety analysis of nuclear fusion installations," Radiation Protection Dosimetry, vol. 180, no. 1-4, s. 125-128, 2018.
[80]
I. Lengar et al., "Activation material selection for multiple foil activation detectors in JET TT campaign," Fusion engineering and design, vol. 136, s. 988-992, 2018.
[81]
L. W. Packer et al., "Activation of ITER materials in JET : nuclear characterisation experiments for the long-term irradiation station," Nuclear Fusion, vol. 58, no. 9, 2018.
[82]
R. V. Budny et al., "Alpha heating, isotopic mass, and fast ion effects in deuterium-tritium experiments," Nuclear Fusion, vol. 58, no. 9, 2018.
[83]
D. Iglesias et al., "An improved model for the accurate calculation of parallel heat fluxes at the JET bulk tungsten outer divertor," Nuclear Fusion, vol. 58, no. 10, 2018.
[84]
J. Hobirk et al., "Analysis of plasma termination in the JET hybrid scenario," Nuclear Fusion, vol. 58, no. 7, 2018.
[85]
Y. I. Kolesnichenko et al., "Analysis of possible improvement of the plasma performance in JET due to the inward spatial channelling of fast-ion energy," Nuclear Fusion, vol. 58, no. 7, 2018.
[86]
K. E. Royston et al., "Application of the Denovo Discrete Ordinates Radiation Transport Code to Large-Scale Fusion Neutronics," Fusion science and technology, vol. 74, no. 4, s. 303-314, 2018.
[87]
N. Krawczyk et al., "Application of the VUV and the soft x-ray systems on JET for the study of intrinsic impurity behavior in neon seeded hybrid discharges," Review of Scientific Instruments, vol. 89, no. 10, 2018.
[88]
A. C. C. Sips et al., "Assessment of the baseline scenario at q(95) similar to 3 for ITER," Nuclear Fusion, vol. 58, no. 12, 2018.
[89]
H. Bergsåker et al., "Assessment of the strength of kinetic effects of parallel electron transport in the SOL and divertor of JET high radiative H-mode plasmas using EDGE2D-EIRENE and KIPP codes," Plasma Physics and Controlled Fusion, vol. 60, no. 11, 2018.
[90]
M. Salewski et al., "Bayesian Integrated Data Analysis of Fast-Ion Measurements by Velocity-Space Tomography," Fusion science and technology, vol. 74, no. 1-2, s. 23-36, 2018.
[91]
Z. Ghani et al., "Characterisation of neutron generators and monitoring detectors for the in-vessel calibration of JET," Fusion engineering and design, vol. 136, s. 233-238, 2018.
[92]
V. V. Plyusnin et al., "Comparison of runaway electron generation parameters in small, medium-sized and large tokamaks-A survey of experiments in COMPASS, TCV, ASDEX-Upgrade and JET," Nuclear Fusion, vol. 58, no. 1, 2018.
[93]
B. Santos et al., "Control and data acquisition software upgrade for JET gamma-ray diagnostics," Fusion engineering and design, vol. 128, s. 117-121, 2018.
[94]
T. Eich et al., "Correlation of the tokamak H-mode density limit with ballooning stability at the separatrix," Nuclear Fusion, vol. 58, no. 3, 2018.
[95]
C. Angioni et al., "Dependence of the turbulent particle flux on hydrogen isotopes induced by collisionality," Physics of Plasmas, vol. 25, no. 8, 2018.
[96]
M. Sertoli et al., "Determination of 2D poloidal maps of the intrinsic W density for transport studies in JET-ILW," Review of Scientific Instruments, vol. 89, no. 11, 2018.
[97]
A. Dal Molin et al., "Development of a new compact gamma-ray spectrometer optimised for runaway electron measurements," Review of Scientific Instruments, vol. 89, no. 10, 2018.
[98]
G. Calabro et al., "Divertor currents optimization procedure for JET-ILW high flux expansion experiments," Fusion engineering and design, vol. 129, s. 115-119, 2018.
[99]
A. Lasa et al., "ERO modeling and sensitivity analysis of locally enhanced beryllium erosion by magnetically connected antennas," Nuclear Fusion, vol. 58, no. 1, 2018.
[100]
N. Bonanomi et al., "Effects of nitrogen seeding on core ion thermal transport in JET ILW L-mode plasmas," Nuclear Fusion, vol. 58, no. 2, 2018.
[101]
C. Sommariva et al., "Electron acceleration in a JET disruption simulation," Nuclear Fusion, vol. 58, no. 10, 2018.
[102]
B. Faugeras et al., "Equilibrium reconstruction at JET using Stokes model for polarimetry," Nuclear Fusion, vol. 58, no. 10, 2018.
[103]
L. C. Appel et al., "Equilibrium reconstruction in an iron core tokamak using a deterministic magnetisation model," Computer Physics Communications, vol. 223, s. 1-17, 2018.
[104]
V. G. Kiptily et al., "Escaping alpha-particle monitor for burning plasmas," Nuclear Fusion, vol. 58, no. 8, 2018.
[105]
A. V. Krasilnikov et al., "Evidence of Be-9 + p nuclear reactions during 2 omega(CH) and hydrogen minority ICRH in JET-ILW hydrogen and deuterium plasmas," Nuclear Fusion, vol. 58, no. 2, 2018.
[106]
C. Guillemaut et al., "Experimental validation of an analytical kinetic model for edge-localized modes in JET-ITER-like wall," Nuclear Fusion, vol. 58, no. 6, 2018.
[107]
C. Bourdelle et al., "Fast H isotope and impurity mixing in ion-temperature-gradient turbulence," Nuclear Fusion, vol. 58, no. 7, 2018.
[108]
L. Giudicotti et al., "First observation of the depolarization of Thomson scattering radiation by a fusion plasma," Nuclear Fusion, vol. 58, no. 4, 2018.
[109]
S. Breton et al., "First principle integrated modeling of multi-channel transport including Tungsten in JET," Nuclear Fusion, vol. 58, no. 9, 2018.
[110]
G. J. Wilkie et al., "First principles of modelling the stabilization of microturbulence by fast ions," Nuclear Fusion, vol. 58, no. 8, 2018.
[111]
D. R. Ferreira et al., "Full-Pulse Tomographic Reconstruction with Deep Neural Networks," Fusion science and technology, vol. 74, no. 1-2, s. 47-56, 2018.
[112]
Z. Stancar et al., "Generation of a plasma neutron source for Monte Carlo neutron transport calculations in the tokamak JET," Fusion engineering and design, vol. 136, s. 1047-1051, 2018.
[113]
J. Gaspar et al., "Heat flux analysis of Type-I ELM impact on a sloped, protruding surface in the JET bulk tungsten divertor," Nuclear Materials and Energy, vol. 17, s. 182-187, 2018.
[114]
S. Breton et al., "High Z neoclassical transport : Application and limitation of analytical formulae for modelling JET experimental parameters," Physics of Plasmas, vol. 25, no. 1, 2018.
[115]
H.-T. Kim et al., "High fusion performance at high T-i/T-e in JET-ILW baseline plasmas with high NBI heating power and low gas puffing," Nuclear Fusion, vol. 58, no. 3, 2018.
[116]
I. Monakhov et al., "ICRH antenna &ITS&IT-matrix measurements and plasma coupling characterisation at JET," Nuclear Fusion, vol. 58, no. 4, 2018.
[117]
M. Kumar et al., "Identification of BeO and BeOxDy in melted zones of the JET Be limiter tiles : Raman study using comparison with laboratory samples," Nuclear Materials and Energy, vol. 17, s. 295-301, 2018.
[118]
N. Bonanomi et al., "Impact of electron-scale turbulence and multi-scale interactions in the JET tokamak," Nuclear Fusion, vol. 58, no. 12, 2018.
[119]
N. C. Hawkes et al., "Instrumentation for the upgrade to the JET core charge-exchange spectrometers," Review of Scientific Instruments, vol. 89, no. 10, 2018.
[120]
J. Figueiredo et al., "JET diagnostic enhancements testing and commissioning in preparation for DT scientific campaigns," Review of Scientific Instruments, vol. 89, no. 10, 2018.
[121]
N. Bonanomi et al., "Light impurity transport in JET ILW L-mode plasmas," Nuclear Fusion, vol. 58, no. 3, 2018.
[122]
S. E. Sharapov et al., "MHD spectroscopy of JET plasmas with pellets via Alfven eigenmodes," Nuclear Fusion, vol. 58, no. 8, 2018.
[123]
T. Craciunescu et al., "Maximum likelihood bolometric tomography for the determination of the uncertainties in the radiation emission on JET TOKAMAK," Review of Scientific Instruments, vol. 89, no. 5, 2018.
[124]
R. Zagorski et al., "Modelling of JET DT experiments in ILW configurations," Contributions to Plasma Physics, vol. 58, no. 6-8, s. 739-745, 2018.
[125]
D. Gallart et al., "Modelling of JET hybrid plasmas with emphasis on performance of combined ICRF and NBI heating," Nuclear Fusion, vol. 58, no. 10, 2018.
[126]
A. Cufar et al., "Modelling of the neutron production in a mixed beam DT neutron generator," Fusion engineering and design, vol. 136, s. 1089-1093, 2018.
[127]
D. Moulton et al., "Neutral pathways and heat flux widths in vertical- and horizontal-target EDGE2D-EIRENE simulations of JET," Nuclear Fusion, vol. 58, no. 9, 2018.
[128]
L. Giacomelli et al., "Neutron emission spectroscopy of D plasmas at JET with a compact liquid scintillating neutron spectrometer," Review of Scientific Instruments, vol. 89, no. 10, 2018.
[129]
D. Rigamonti et al., "Neutron spectroscopy measurements of 14 MeV neutrons at unprecedented energy resolution and implications for deuterium-tritium fusion plasma diagnostics," Measurement science and technology, vol. 29, no. 4, s. 045502, 2018.
[130]
B. Cannas et al., "Nonlinear dynamic analysis of D-alpha signals for type I edge localized modes characterization on JET with a carbon wall," Plasma Physics and Controlled Fusion, vol. 60, no. 2, 2018.
[131]
M. Maslov et al., "Observation of enhanced ion particle transport in mixed H/D isotope plasmas on JET," Nuclear Fusion, vol. 58, no. 7, 2018.
[132]
K. G. McClements et al., "Observations and modelling of ion cyclotron emission observed in JET plasmas using a sub-harmonic arc detection system during ion cyclotron resonance heating," Nuclear Fusion, vol. 58, no. 9, 2018.
[133]
A. Murari et al., "On the Use of Transfer Entropy to Investigate the Time Horizon of Causal Influences between Signals," Entropy, vol. 20, no. 9, 2018.
[134]
M. Lungaroni et al., "On the potential of ruled-based machine learning for disruption prediction on JET," Fusion engineering and design, vol. 130, s. 62-68, 2018.
[135]
J. Garcia et al., "On the universality of power laws for tokamak plasma predictions," Plasma Physics and Controlled Fusion, vol. 60, no. 2, 2018.
[136]
P. Batistoni et al., "Overview of neutron measurements in jet fusion device," Radiation Protection Dosimetry, vol. 180, no. 1-4, s. 102-108, 2018.
[137]
M. Kresina et al., "Preparation for commissioning of materials detritiation facility at Culham Science Centre," Fusion engineering and design, vol. 136, s. 1391-1395, 2018.
[138]
A. Sahlberg et al., "Propagating transport-code input parameter uncertainties with deterministic sampling," Plasma Physics and Controlled Fusion, vol. 60, no. 12, 2018.
[139]
J. Vega et al., "Real-time implementation with FPGA-based DAQ system of a probabilistic disruption predictor from scratch," Fusion engineering and design, vol. 129, s. 179-182, 2018.
[140]
A. Huber et al., "Real-time protection of the JET ITER-like wall based on near infrared imaging diagnostic systems," Nuclear Fusion, vol. 58, no. 10, 2018.
[141]
F. Felici et al., "Real-time-capable prediction of temperature and density profiles in a tokamak using RAPTOR and a first-principle-based transport model," Nuclear Fusion, vol. 58, no. 9, 2018.
[142]
B. J. Ding et al., "Review of recent experimental and modeling advances in the understanding of lower hybrid current drive in ITER-relevant regimes," Nuclear Fusion, vol. 58, no. 9, 2018.
[143]
C. Silva et al., "Scaling of the geodesic acoustic mode amplitude on JET," Plasma Physics and Controlled Fusion, vol. 60, no. 8, 2018.
[144]
R. J. Dumont et al., "Scenario development for the observation of alpha-driven instabilities in JET DT plasmas," Nuclear Fusion, vol. 58, no. 8, 2018.
[145]
N. Fonnesu et al., "Shutdown dose rate measurements after the 2016 Deuterium-Deuterium campaign at JET," Fusion engineering and design, vol. 136, s. 1348-1353, 2018.
[146]
R. Villari et al., "Shutdown dose rate neutronics experiment during high performances DD operations at JET," Fusion engineering and design, vol. 136, s. 1545-1549, 2018.
[147]
D. I. Refy et al., "Sub-millisecond electron density profile measurement at the JET tokamak with the fast lithium beam emission spectroscopy system," Review of Scientific Instruments, vol. 89, no. 4, 2018.
[148]
D. I. Refy et al., "Sub-millisecond electron density profile measurement at the JET tokamak with the fast lithium beam emission spectroscopy system (vol 89, 043509, 2018)," Review of Scientific Instruments, vol. 89, no. 6, 2018.
[149]
D. Darby-Lewis et al., "Synthetic spectra of BeH, BeD and BeT for emission modeling in JET plasmas," Journal of Physics B : Atomic, Molecular and Optical Physics, vol. 51, no. 18, 2018.
[150]
F. Nabais et al., "TAE stability calculations compared to TAE antenna results in JET," Nuclear Fusion, vol. 58, no. 8, 2018.
[151]
B. Obryk et al., "TLD calibration for neutron fluence measurements at JET fusion facility," Nuclear Instruments and Methods in Physics Research Section A : Accelerators, Spectrometers, Detectors and Associated Equipment, vol. 904, s. 202-213, 2018.
[152]
C. Sommariva et al., "Test particles dynamics in the JOREK 3D non-linear MHD code and application to electron transport in a disruption simulation," Nuclear Fusion, vol. 58, no. 1, 2018.
[153]
B. Coiling et al., "Testing of tritium breeder blanket activation foil spectrometer during JET operations," Fusion engineering and design, vol. 136, s. 258-264, 2018.
[154]
D. Rigamonti et al., "The upgraded JET gamma-ray cameras based on high resolution/high count rate compact spectrometers," Review of Scientific Instruments, vol. 89, no. 10, 2018.
[155]
A. Baron-Wiechec et al., "Thermal desorption spectrometry of beryllium plasma facing tiles exposed in the JET tokamak," Fusion engineering and design, vol. 133, s. 135-141, 2018.
[156]
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Konferensbidrag

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D. Kalupin et al., "Predictive simulations of reactor-scale plasmas fuelled with multiple pellets with the European Transport Simulator," i 42nd European Physical Society Conference on Plasma Physics, EPS 2015, 2015.
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T. Hellsten et al., "RF Heating for Fusion Product Studies," i RADIOFREQUENCY POWER IN PLASMAS, 2015.
[467]
R. Bilato et al., "Status of the benchmark activity of ICRF full-wave codes within EUROfusion WPCD and beyond," i RADIOFREQUENCY POWER IN PLASMAS, 2015.
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S. Tholerus, T. Hellsten och T. J. Johnson, "Comparisons of the nonlinear and the quasilinear model for the bump-on-tail instability with phase decorrelation," i Joint Varenna-Lausanne International Workshop on the Theory of Fusion Plasmas, SEP 01-05, 2014, Varenna, ITALY, 2014.
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S. Schmuck et al., "Electron temperature and density inferred from JET ECE diagnostics," i 41st EPS Conference on Plasma Physics, EPS 2014, 2014.
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J. P. Graves et al., "Sawtooth control in JET with ITER relevant low field side resonance ICRH and ITER like wall," i 41st EPS Conference on Plasma Physics, EPS 2014, 2014.
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T. Hellsten och T. Johnson, "Self-Consistent ICRH Modelling," i Radiofrequency power in plasmas, 2014, s. 295-297.
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Y. Kazakov et al., "Poloidal density asymmetries due to ion cyclotron resonance heating," i 39th EPS Conference on Plasma Physics 2012, EPS 2012 and the 16th International Congress on Plasma Physics, Volume 2, 2012, 2012, s. 894-897.
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T. Hellsten et al., "Self-consistent ICRH modelling," i 39th EPS Conference on Plasma Physics 2012, EPS 2012 and the 16th International Congress on Plasma Physics : Volume 2, 2012, 2012, s. 1106-1109.
[475]
S. Schmuck och T. Johnson, "Bayesian derivation of electron temperature profile using JET ECE diagnostics," i Proceedings of 38th EPS Conference on Plasma Physics, Strasbourg, France (2011), 2011.
[476]
D. Van Eester et al., "Enhancing the mode conversion efficiency in JET plasmas with multiple mode conversion layers," i AIP Conf. Proc., 2011, s. 301-308.
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M. Jucker et al., "Ion cyclotron resonance heating with consistent finite orbit widths and anisotropic equilibria," i PLASMA PHYS CONTROL FUSION, 2011, s. 054010.
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T. Johnson et al., "Library for RF Interactions in Orbit Following Codes," i RADIO FREQUENCY POWER IN PLASMAS : PROCEEDINGS OF THE 19TH TOPICAL CONFERENCE, 2011.
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T. Hellsten et al., "Self-Consistent ICRH Modelling," i RADIO FREQUENCY POWER IN PLASMAS : PROCEEDINGS OF THE 19TH TOPICAL CONFERENCE, 2011, s. 365-368.
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D. Van Eester et al., "Mode conversion heating in JET plasmas with multiple mode conversion layers," i 37th EPS Conference on Plasma Physics 2010, EPS 2010 : Volume 3, 2010, s. 1816-1819.
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B. Baiocchi et al., "Predictive modelling of H-mode and steady-state scenarios in FAST," i 37th EPS Conference on Plasma Physics 2010, EPS 2010 : Volume 1, 2010, s. 293-296.
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M. F. F. Nave et al., "Toroidal rotation in JET ICRF heated H-mode plasmas," i 37th EPS Conference on Plasma Physics 2010, EPS 2010 : Volume 1, 2010, s. 185-188.
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M. -. Mayoral et al., "Overview of Recent Results on Heating and Current Drive in the JET tokamak," i RADIO FREQUENCY POWER IN PLASMAS, 2009, s. 39-46.
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R. V. Budny et al., "Progress testing TRANSP-TORIC simulations of ICRH in JET," i 36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts, 2009, s. 1455-1458.
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J. P. Graves et al., "Sawtooth control mechanism on JET using off-axis toroidally propagating ICRF waves," i 36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts, 2009, s. 1511-1514.
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M. F. F. Nave et al., "The influence of magnetic field ripple on JET intrinsic rotation," i 36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts, 2009, s. 805-808.
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T. Koskela et al., "Alpha particle orbits in a locally perturbed ITER 3D magnetic field," i EPS Conf. Plasma Phys., EPS - Europhys. Conf. Abstr., 2008, s. 1811-1814.
[489]
V. G. Kiptily et al., "Fast ion JET diagnostics : Confinement and losses," i BURNING PLASMA DIAGNOSTICS, 2008, s. 283-290.
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T. Kurki-Suonio et al., "Fast particle losses in ITER," i EPS Conf. Plasma Phys., EPS - Europhys. Conf. Abstr., 2008, s. 117-120.
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J. P. Graves et al., "Sawtooth control mechanism using counter current propagating ICRH in JET," i EPS Conf. Plasma Phys., EPS - Europhys. Conf. Abstr., 2008, s. 2010-2013.
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L. -. Eriksson et al., "Simulation of fast ion contribution to toroidal rotation in ICRF heated jet plasmas," i EPS Conf. Plasma Phys., EPS - Europhys. Conf. Abstr., 2008, s. 1679-1682.
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F. S. Zaitsev et al., "Simulations to elucidate suprathermal deuterium ion tail observed in He3 minority ICRF heated JET plasmas," i EPS Conf. Plasma Phys., EPS - Europhys. Conf. Abstr., 2008, s. 501-504.
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P. C. De Vries et al., "Effect of toroidal field ripple on plasma rotation in JET," i 34th EPS Conference on Plasma Physics 2007, EPS 2007 - Europhysics Conference Abstracts, 2007, s. 603-606.
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P. Sandquist et al., "Fast ion anisotropy drive for bi-directional tornado modes on JET," i 34th EPS Conference on Plasma Physics 2007, EPS 2007 - Europhysics Conference Abstracts, 2007, s. 1653-1656.
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N. C. Hawkes et al., "Ion transport barrier formation with low injected torque in JET," i 34th EPS Conference on Plasma Physics 2007, EPS 2007 - Europhysics Conference Abstracts, 2007, s. 504-507.
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M. J. Mantsinen et al., "Modification of sawtooth oscillations with ICRF waves in the JET tokamak," i RADIO FREQUENCY POWER IN PLASMAS, 2007, s. 35-42.
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S. Coda et al., "NTM prevention by ICCD control of fast-ion-stabilised sawteeth," i 34th EPS Conference on Plasma Physics 2007, EPS 2007 - Europhysics Conference Abstracts, 2007, s. 2138-2141.
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T. A. K. Hellsten och T. J. Johnson, "A model collision operator for orbit averaged Monte Carlo codes," i AIP Conf. Proc., 2006, s. 362-367.
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T. Hellsten et al., "Fast Wave Current Drive and Direct Electron Heating in JET ITB Plasmas," i Proc 21st IAEA Fusion Energy Conference, 2006.
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J. P. Graves et al., "Modelling ICCD experiments for sawtooth control in JET," i Theory of Fusion Plasmas, 2006, s. 350-355.
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F. S. Zaitsev et al., "Simulation of deuteron tails produced by close collisions with ICRH Accelerated He3 ions in JET," i EPS Conf. Plasma Phys., EPS, 2006, s. 412-415.
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T. Bergkvist, T. Hellsten och T. Johnson, "Self-consistent study of fast particle redistribution by Alfvén eigenmodes during Ion cyclotron resonance heating," i Proceedings of the 9th IAEA Technical Meeting on Energetic Particles in Magnetic Confinement Systems, 2005, s. 14-20.
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T. Hellsten et al., "Non-linear study of fast particle excitation of global Alfvén eigenmodes during ICRH," i Proceedings 20th IAEA Fusion Energy Conference, 2004.
[512]
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Icke refereegranskade

Artiklar

[513]
J. P. Graves et al., "Experimental verification of sawtooth control by energetic particles in ion cyclotron resonance heated JET tokamak plasmas," Nuclear Fusion, vol. 50, no. 5, s. 052002, 2010.

Konferensbidrag

[514]
B. Ljungberg et al., "3D Finite Element Modelling of ICRH in WEST," i Proceedings 46th EPS Conference on Plasma Physics, 2019.
[515]
E. Tholerus, T. Hellsten och T. Johnson, "A bump-on-tail model for Alfvén eigenmodes in toroidal plasmas," i 14th IAEA Technical Meeting on “Energetic Particles in Magnetic Confinement Systems”, Vienna, Austria, September 1 - 4, 2015, 2015.
[516]
E. Tholerus, T. Hellsten och T. Johnson, "Modeling the dynamics of toroidal Alfvén eigenmodes," i 13th IAEA Technical Meeting on “Energetic Particles in Magnetic Confinement Systems”, Beijing, China, September 17 - 20, 2013, 2013.
[517]
Q. Mukhtar, T. Hellsten och T. Johnson, "On Monte Carlo operators describing Coulomb collisions in toroidal plasmas," i 38th EPS Conference on Plasma Physics 2011, EPS 2011; Strasbourgh, France, 27 June - 1 July 2011, 2011, s. 1288-1291.
[518]
A. Hannan, T. Hellsten och T. Johnson, "On fast wave current drive at higher cyclotron harmonics," i 38th EPS Conference on Plasma Physics 2011, EPS 2011 - Europhysics Conference Abstracts : Volume 35 1, 2011, s. 889-892.
[519]
I. T. Chapman et al., "Sawtooth Control in ITER using Ion Cyclotron Resonance Heating," i Proceedings of the EPS Conference on Plasma Physics, 2011.
[520]
A. Hannan, T. Hellsten och T. Johnson, "A Fokker-Planck Code for Fast Self-Consistent Calculations of ICRH," i 37th EPS Conference on Plasma Physics, 2010.
[521]
T. Tala et al., "Experimental Progress in Rotation Physics towards the Capability to Predict the Toroidal Rotation Profile," i 23rd IAEA Fusion Energy Conference. Daejon, Korea Rep. of. 11-16 October 2010, 2010.
[522]
P. Mantica et al., "Key to Improved Ion Core Confinement in the JET Tokamak : Ion Stiffness Mitigation due to Combined Plasma Rotation and Low Magnetic Shear," i 23rd IAEA Fusion Energy Conference, 11-16 October 2010, 2010.
[523]
E. Lerche et al., "Potential of the ICRH schemes in H-(3He) plasmas proposed for ITER?s half-field non-activated phase," i 23rd IAEA Fusion Energy Conference, 2010.
[524]
J. P. Graves et al., "Sawtooth Control Relying on Toroidally Propagating ICRF Waves," i 23rd IAEA Fusion Energy Conference. Daejon, Korea Rep. of. 11-16 October 2010, 2010.
[525]
V. Kipitily et al., "Studies of MHD Effects on Fast Ions: towards Burning Plasma with ITER-like Wall on JET," i 23rd IAEA Fusion Energy Conference, 2010.
[526]
P. Mantica et al., "Experimental Study of the Ion Critical Gradient Length and Stiffness Level and the Impact of Rotational Shear in the JET Tokamak," i Proceedings of the 22nd IAEA Fusion Energy Conference, 2008.
[527]
T. Hellsten och T. Johnson, "Neoclassical Electric Field in Presence of Large Gradients and Particle Losses," i 35th EPS Conference on Plasma Physics 2008, EPS 2008 - Europhysics Conference Abstracts : Volume 32, Issue 3, 2008, s. 1847-1850.
[528]
T. Hellsten och T. Johnson, "On Current Drive and Wave Induced Bootstrap Current in Toroidal Plasmas," i Theory of Fusion Plasmas : Joint Varenna - Lausanne International Workshop, 2008, s. 88-99.
[529]
V. Kiptily et al., "Recent Progress in Fast-Ion Physics on JET," i 22nd IAEA Fusion Energy Conference, 2008.
[530]
G. Saibene et al., "Results of the variable toroidal field ripple experiments in JET," i Proceedings of the22nd IAEA Fusion Energy Conference, 2008.
[531]
F. Ryter et al., "Simultaneous Analysis of Ion and Electron Heat Transport," i 22nd IAEA Fusion Energy Conference. Geneva, Switzerland. 13-18 October 2008, 2008.
[532]
T. Johnson et al., "Modelling of Fast Particle Transport and Losses with TF Ripple in JET," i 10th IAEA TM Energetic Plarticles in Magnetic Confinement Systems, 2007.
[533]
T. Johnson et al., "Numerical Modelling of Ripple Induced Transport," i Proceedings of the 33rd EPS Conference on Plasma Physics, 2006, s. 408-411.
[534]
T. Hellsten et al., "ICE in toroidal plasmas," i IAEA Technical Meeting on Fast Particles, 2005.
[535]
T. Hellsten et al., "Integrated Modelling of ICRH and AE Dynamics," i IEA Burning Plasma Workshop, 2005.
[536]
T. Johnson et al., "Modelling of ICRH induced current and rotation," i RADIO FREQUENCY POWER IN PLASMAS, 2003, s. 479-482.
[537]
T. Johnson, J. Hedin och T. Hellsten, "Ion cyclotron current drive studies," i Proceedings of the 2000 international congress on plasma physics, 2000.

Avhandlingar

[538]
T. Johnson, "Fast wave heating of cyclotron resonant ions in tokamaks," Doktorsavhandling Stockholm : KTH, 2004.

Rapporter

[539]
E. Tholerus, T. Johnson och T. Hellsten, "Modelling the Dynamics of Energetic Ions and MHD Modes Influenced by ICRH," KTH Royal Institute of Technology, TRITA-EE, 2016:142, 2016.

Övriga

[540]
L. J. Höök, T. Johnson och T. Hellsten, "Multilevel Monte Carlo and control-variate simulation of Coulomb collisions," (Manuskript).
Senaste synkning med DiVA:
2024-04-21 04:29:06