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Träfflista för sökning "WFRF:(Moseev D.) "

Sökning: WFRF:(Moseev D.)

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1.
  • Abgrall, N., et al. (författare)
  • The large enriched germanium experiment for neutrinoless double beta decay (LEGEND)
  • 2017
  • Ingår i: Workshop on Calculation of Double-Beta-Decay Matrix Elements, MEDEX 2017. - : American Institute of Physics (AIP). - 9780735415775 ; 1894
  • Konferensbidrag (refereegranskat)abstract
    • The observation of neutrinoless double-beta decay (0νββ) would show that lepton number is violated, reveal that neu-trinos are Majorana particles, and provide information on neutrino mass. A discovery-capable experiment covering the inverted ordering region, with effective Majorana neutrino masses of 15 - 50 meV, will require a tonne-scale experiment with excellent energy resolution and extremely low backgrounds, at the level of ∼0.1 count /(FWHM·t·yr) in the region of the signal. The current generation 76Ge experiments GERDA and the Majorana Demonstrator, utilizing high purity Germanium detectors with an intrinsic energy resolution of 0.12%, have achieved the lowest backgrounds by over an order of magnitude in the 0νββ signal region of all 0νββ experiments. Building on this success, the LEGEND collaboration has been formed to pursue a tonne-scale 76Ge experiment. The collaboration aims to develop a phased 0νββ experimental program with discovery potential at a half-life approaching or at 1028 years, using existing resources as appropriate to expedite physics results.
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2.
  • Korsholm, S. B., et al. (författare)
  • Development of novel fuel ion ratio diagnostic techniques
  • 2010
  • Ingår i: Review of Scientific Instruments. - 0034-6748 .- 1089-7623. ; 81:10, s. 10D323-
  • Tidskriftsartikel (refereegranskat)abstract
    • To overcome the challenge of measuring the fuel ion ratio in the core (rho<0.3) of ITER, a coordinated effort aiming at developing diagnostic techniques has been initiated. The investigated techniques are novel uses or further development of existing methods such as charge exchange recombination spectrometry, neutron spectrometry, and collective Thomson scattering. An overview of the work on the three diagnostic techniques is presented.
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3.
  • Moseev, D., et al. (författare)
  • Elevation angle alignment of quasi optical receiver mirrors of collective Thomson scattering diagnostic by sawtooth measurements
  • 2012
  • Ingår i: Review of Scientific Instruments. - 0034-6748. ; 83:10
  • Tidskriftsartikel (refereegranskat)abstract
    • Localized measurements of the fast ion velocity distribution function and the plasma composition measurements are of significant interest for the fusion community. Collective Thomson scattering (CTS) diagnostics allow such measurements with spatial and temporal resolution. Localized measurements require a good alignment of the optical path in the transmission line. Monitoring the alignment during the experiment greatly benefits the confidence in the CTS measurements. An in situ technique for the assessment of the elevation angle alignment of the receiver is developed. Using the CTS diagnostic on TEXTOR without a source of probing radiation in discharges with sawtooth oscillations, an elevation angle misalignment of 0.9 degrees was found with an accuracy of 0.25 degrees.
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4.
  • Salewski, M., et al. (författare)
  • Bayesian Integrated Data Analysis of Fast-Ion Measurements by Velocity-Space Tomography
  • 2018
  • Ingår i: Fusion science and technology. - : TAYLOR & FRANCIS INC. - 1536-1055 .- 1943-7641. ; 74:1-2, s. 23-36
  • Tidskriftsartikel (refereegranskat)abstract
    • Bayesian integrated data analysis combines measurements from different diagnostics to jointly measure plasma parameters of interest such as temperatures, densities, and drift velocities. Integrated data analysis of fast-ion measurements has long been hampered by the complexity of the strongly non-Maxwellian fast-ion distribution functions. This has recently been overcome by velocity-space tomography. In this method two-dimensional images of the velocity distribution functions consisting of a few hundreds or thousands of pixels are reconstructed using the available fast-ion measurements. Here we present an overview and current status of this emerging technique at the ASDEX Upgrade tokamak and the JET toamak based on fast-ion D-alpha spectroscopy, collective Thomson scattering, gamma-ray and neutron emission spectrometry, and neutral particle analyzers. We discuss Tikhonov regularization within the Bayesian framework. The implementation for different types of diagnostics as well as the uncertainties are discussed, and we highlight the importance of integrated data analysis of all available detectors.
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5.
  • Salewski, M., et al. (författare)
  • Diagnostic of fast-ion energy spectra and densities in magnetized plasmas
  • 2019
  • Ingår i: Journal of Instrumentation. - : Institute of Physics Publishing (IOPP). - 1748-0221 .- 1748-0221. ; 14
  • Tidskriftsartikel (refereegranskat)abstract
    • The measurement of the energy spectra and densities of alpha-particles and other fast ions are part of the ITER measurement requirements, highlighting the importance of energy-resolved energetic-particle measurements for the mission of ITER. However, it has been found in recent years that the velocity-space interrogation regions of the foreseen energetic-particle diagnostics do not allow these measurements directly. We will demonstrate this for gamma-ray spectroscopy (GRS), collective Thomson scattering (CTS), neutron emission spectroscopy and fast-ion D-alpha spectroscopy by invoking energy and momentum conservation in each case, highlighting analogies and differences between the different diagnostic velocity-space sensitivities. Nevertheless, energy spectra and densities can be inferred by velocity-space tomography which we demonstrate using measurements at JET and ASDEX Upgrade. The measured energy spectra agree well with corresponding simulations. At ITER, alpha-particle energy spectra and densities can be inferred for energies larger than 1.7 MeV by velocity-space tomography based on GRS and CTS. Further, assuming isotropy of the alpha-particles in velocity space, their energy spectra and densities can be inferred by 1D inversion of spectral single-detector measurements down to about 300 keV by CTS. The alpha-particle density can also be found by fitting a model to the CTS measurements assuming the alpha-particle distribution to be an isotropic slowing-down distribution.
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6.
  • Salewski, M., et al. (författare)
  • MeV-range velocity-space tomography from gamma-ray and neutron emission spectrometry measurements at JET
  • 2017
  • Ingår i: Nuclear Fusion. - Culham Sci Ctr, EUROfus Consortium, JET, Abingdon OX14 3DB, Oxon, England. [Salewski, M.; Korsholm, S. B.; Leipold, F.; Madsen, J.; Nielsen, S. K.; Rasmussen, J.; Stejner, M.] Tech Univ Denmark, Dept Phys, Lyngby, Denmark. [Nocente, M.; Gorini, G.] Univ Milano Bicocca, Dept Phys, Milan, Italy. [Nocente, M.; Gorini, G.; Tardocchi, M.] CNR, Ist Fis Plasma, Milan, Italy. [Jacobsen, A. S.] Max Planck Inst Plasma Phys, Garching, Germany. [Binda, F.; Ericsson, G.; Eriksson, J.; Hellesen, C.; Hjalmarsson, A.] Uppsala Univ, Dept Phys & Astron, Uppsala, Sweden. [Cazzaniga, C.] Rutherford Appleton Lab, Sci & Technol Facil Council, ISIS Facil, Didcot, Oxon, England. [Kiptily, V. G.; Sharapov, S. E.] Culham Sci Ctr, CCFE, Abingdon, Oxon, England. [Koskela, T.; Kurki-Suonio, T.] Aalto Univ, Dept Appl Phys, Aalto, Finland. [Koskela, T.] Lawrence Berkeley Natl Lab, NERSC, Berkeley, CA USA. [Moseev, D.] Max Planck Inst Plasma Phys, Greifswald, Germany. [Schneider, M.] ITER Org, St Paul Les Durance, France. [Asunta, O.; Buratti, P.; Dux, R.; Groth, M.; Jarvinen, A.; Karhunen, J.; King, R. F.; Koskela, T.; Kurki-Suonio, T.; Lomanowski, B.; Lonnroth, J.; Makkonen, T.; Miettunen, J.; Moulton, D.; Santala, M. I. K.; Sipila, S. K.; Uljanovs, J.; Varje, J.] Aalto Univ, POB 14100, FIN-00076 Aalto, Finland. [Galassi, D.] Aix Marseille Univ, CNRS, Ctr Marseille, M2P2 UMR 7340, F-13451 Marseille, France. [Gardarein, J. -L.] Aix Marseille Univ, CNRS, IUSTI UMR 7343, F-13013 Marseille, France. [Camenen, Y.; Koubiti, M.; Manas, P.; Marandet, Y.] Aix Marseille Univ, CNRS, PIIM, UMR 7345, F-13013 Marseille, France. [Luna, C.] Arizona State Univ, Tempe, AZ USA. [Futatani, S.; Gallart, D.; Mantsinen, M.; Rakha, A.] Barcelona Supercomp Ctr, Barcelona, Spain. [Afzal, M.; Aldred, V.; Allinson, M.; Alper, B.; Appel, L.; Appelbee, C.; Ash, A.; Austin, Y.; Axton, M. D.; Ayres, C.; Bailey, S.; Baker, A.; Balboa, I.; Balshaw, N.; Bament, R.; Banks, J. W.; Baranov, Y. F.; Barnard, M. A.; Barnes, D.; Wiechec, A. Baron; Bastow, R.; Baughan, R.; Beaumont, P. S.; Beckett, B.; Beldishevski, M.; Bell, K.; Bellinger, M.; Ben Ayed, N.; Benterman, N. A.; Berry, M.; Besliu, C.; Blackburn, J.; Blackman, K.; Blackman, T. R.; Blatchford, P.; Boboc, A.; Booth, J.; Boulting, P.; Bowden, M.; Bower, C.; Boyce, T.; Boyd, C.; Boyer, H. J.; Bradshaw, J. M. A.; Brennan, P. D.; Brett, A.; Bright, M. D. J.; Brix, M.; Brown, D. P. D.; Brown, M.; Buchanan, J.; Buckley, M. A.; Bulman, M.; Bulmer, N.; Bunting, P.; Busse, A.; Butler, N. K.; Byrne, J.; Camp, P.; Campling, D. C.; Cane, J.; Capel, A. J.; Card, P. J.; Carman, P.; Carr, M.; Casson, F. J.; Caumont, J.; Cave-Ayland, K.; Challis, C. D.; Chandler, M.; Chapman, I. T.; Ciric, D.; Clark, E.; Clark, M.; Clarkson, R.; Clatworthy, D.; Clements, C.; Cleverly, M.; Coad, J. P.; Coates, P. A.; Cobalt, A.; Collins, S.; Conway, N.; Coombs, D.; Cooper, D.; Cooper, S. R.; Corrigan, G.; Couchman, A. S.; Cox, M. P.; Cramp, S.; Craven, R.; Croft, D.; Crowe, R.; Cullen, A.; Dabirikhah, H.; Dalgliesh, P.; Dalley, S.; Davies, O.; Day, I. E.; Deakin, K.; Deane, J.; Dendy, R. O.; Dorling, S. E.; Doswon, S.; Doyle, P. T.; Edmond, J.; Edwards, A. M.; Edwards, J.; El-Jorf, R.; Elsmore, C. G.; Evans, B.; Evans, G. E.; Evison, G.; Ewart, G. D.; Fagan, D.; Fawlk, N.; Felton, R. C.; Fenton, K.; Fessey, J. A.; Field, A.; Finburg, P.; Fittill, L.; Fitzgerald, M.; Flanagan, J.; Fleming, C.; Flinders, K.; Forsythe, L.; Fortune, M.; Foster, S.; Franklin, T.; Fyvie, J.; Gallagher, J.; Garzotti, L.; Gear, D. F.; Gee, S. J.; Gerasimov, S.; Gethins, M.; Ghani, Z.; Gibson, C. S.; Gilligan, S.; Giroud, C.; Godwin, J.; Goff, J.; Goodliffe, M.; Goodyear, A.; Gowland, R.; Graham, B.; Graham, M. E.; Grazier, N.; Grazier, P.; Green, N. R.; Griph, F. S.; Grist, D.; Grundy, C. N.; Guard, D.; Gurl, C.; Hackett, L. J.; Hagar, A.; Hall, S. J.; Cook, S. P. Hallworth; Hamlyn-Harris, C.; Hammond, K.; Harrington, C.; Harrison, J.; Harting, D.; Haupt, T. D. V.; Hawes, J.; Hawkes, N. C.; Hawkins, J.; Hawkins, P.; Haydon, P. W.; Hayter, N.; Hazel, S.; Heesterman, P. J. L.; Hemming, O. N.; Hender, T. C.; Hepple, D.; Hermon, G.; Hill, M.; Hillesheim, J.; Hogben, C. H. A.; Hollingsworth, A.; Hollis, S.; Homfray, D. A.; Horton, A. R.; Hotchin, S. P.; Hough, M. R.; Howarth, P. J.; Huddleston, T. M.; Hughes, M.; Hunter, C. L.; Hynes, A. M.; Iglesias, D.; Jacquet, P.; Jenkins, I.; Johnson, R.; Johnston, Jane; Joita, L.; Jones, G.; Jones, T. T. C.; Kaniewski, J.; Kantor, A.; Karkinsky, D.; Karnowska, I.; Kaveney, G.; Keeling, D. L.; Keenan, T.; Keep, J.; Kempenaars, M.; Kennedy, C.; Kenny, D.; Kent, J.; Kent, O. N.; Kinch, A.; King, C.; King, D.; Kinna, D. J.; Kiptily, V.; Kirk, A.; Kirov, K.; Knight, P.; Knipe, S. J.; Kogan, L.; Kovari, M.; Kruezi, U.; Laing, A.; Lam, N.; Lane, C.; Last, J. R.; Lawless, R.; Lawson, A.; Lawson, K. D.; Lefebvre, X.; Lehmann, J.; Leichuer, P.; Lesnoj, S.; Letellier, E.; Lobel, R. C.; Lomas, P. J.; Lovell, J. J.; Loving, A. B.; Lucock, R. M. A.; Lupelli, I.; Macdonald, N.; Macheta, P.; Maczewa, K.; Maggi, C.; Mailloux, J.; Manning, A.; Marren, C. A.; Marshal, R.; Martin, A.; Maslov, M.; Matthews, G. F.; May-Smith, T.; McAdams, R.; McClements, K. G.; McCullen, P. A.; McIntosh, S.; McKean, R.; McKehon, J.; Meadows, R. C.; Meakins, A.; Medland, M.; Medley, S.; Meigh, S.; Meigs, A. G.; Menmuir, S.; Merrigan, I. R.; Meyer, H.; Middleton-Gear, D.; Militello, F.; Militello-Asp, E.; Monakhov, I.; Mooney, R.; Moreira, L.; Morris, A. W.; Morris, J.; Moulton, D.; Murphy, S.; Naish, R.; Newman, M.; Nicholls, K. J.; Noble, C.; Nodwell, D.; Odupitan, T.; O'Gorman, T.; Olney, R.; Omolayo, O.; Oswuigwe, B. I.; Otin, R.; Owen, A.; Pace, N.; Packer, L. W.; Page, A.; Pamela, S.; Parail, V.; Patel, A.; Paton, D.; Pearson, I. J.; Puglia, P. P. Pereira; Petrella, N.; Piron, L.; Pool, P. J.; Popovichev, S.; Porton, M.; Powell, T.; Pozzi, J.; Price, D.; Price, M.; Price, R.; Prior, P.; Proudfoot, R.; Pulley, D.; Purahoo, K.; Rainford, M. S. J.; Rayner, C.; Reece, D.; Reed, A.; Regan, B.; Reid, N.; Rendell, D.; Reynolds, S.; Riccardo, V.; Richardson, N.; Riddle, K.; Rimini, F. G.; Roach, C.; Robins, R. J.; Robinson, S. A.; Robinson, T.; Robson, D. W.; Rodriguez, J.; Romanelli, M.; Romanelli, S.; Rowe, S.; Saarelma, S.; Sagar, P.; Salmon, R.; Samaddar, D.; Sandiford, D.; Scannell, R.; Schmuck, S.; Sharapov, S. E.; Shaw, A.; Shaw, R.; Sheikh, H.; Shepherd, A.; Sibbald, M.; Silburn, S.; Simmons, P. A.; Simpson, J.; Simpson-Hutchinson, J.; Skilton, R.; Slade, B.; Smith, N.; Smith, P. G.; Smith, R.; Smith, T. J.; Spelzini, T.; Stables, G.; Stamp, M. F.; Staniec, P.; Stead, M. J.; Stephen, A. V.; Stevens, A.; Stevens, B. D.; Stubbs, G.; Studholme, W.; Szepesi, G.; Talbot, A. R.; Tame, C.; Taylor, D.; Taylor, K. A.; Thomas, J.; Thomas, J. D.; Thompson, A.; Thompson, C. -A.; Thompson, V. K.; Thorne, L.; Thornton, A.; Tigwell, P. A.; Tipton, N.; Tonner, P.; Towndrow, M.; Trimble, P.; Turner, I.; Tvalashvili, G.; Tyrrell, S. G. J.; Ul-Abidin, Z.; Ulyatt, D.; Vadgama, A. P.; Valcarcel, D.; Valovic, M.; Van De Mortel, M.; Verhoeven, R.; Vizvary, Z.; Vora, N.; Wakeling, B.; Waldon, C. W. F.; Walkden, N.; Walker, M.; Walker, R.; Warder, S.; Warren, R. J.; Waterhouse, J.; Wellstood, C.; West, A. T.; Wheatley, M. R.; Whetham, S.; Whitehead, A. M.; Whitehead, B. D.; Widdowson, A. M.; Wilkinson, J.; Williams, J.; Williams, M.; Wilson, A. R.; Wilson, D. J.; Wilson, J.; Withenshaw, G.; Withycombe, A.; Witts, D. M.; Wood, D.; Wood, R.; Woodley, C.; Wray, S.; Wright, J.; Xu, T.; Young, C.; Young, D.; Young, I. D.; Young, R.; Zacks, J.; Zastrow, K. D.] CCFE Culham Sci Ctr, Abingdon OX14 3DB, Oxon, England. [Ahn, J. H.; Arnichand, H.; Basiuk, V.; Becoulet, A.; Bottereau, C.; Bourdelle, C.; Bremond, S.; Breton, S.; Bucalossi, J.; Bufferand, H.; Ciraolo, G.; Clairet, F.; Colas, L.; Corre, Y.; Denis, J.; Devynck, P.; Douai, D.; Dumont, R.; Ekedahl, A.; Esteve, D.; Fedorczak, N.; Fevrier, O.; Fil, A.; Firdaouss, M.; Garcia, J.; Gauthier, E.; Giacalone, J. C.; Gil, C.; Girardo, J. B.; Giruzzi, G.; Goniche, M.; Grisolia, C.; Guillemaut, C.; Guirlet, R.; Hacquin, S.; Helou, W.; Hertout, P.; Hillairet, J.; Hodille, E.; Huynh, P.; Imbeaux, F.; Irishkin, M.; Jardin, A.; Joffrin, E.; Kogut, D.; Kresina, M.; Loarer, T.; Maget, P.; Mazon, D.; Molina, D.; Nardon, E.; Nilsson, E.; Nouailletas, R.; Peysson, Y.; Reux, C.; Sabot, R.; Saint-Laurent, F.; Schneider, M.; Sommariva, C.; Tamain, P.; Valentinuzzi, M.; Vartanian, S.; Vu, T.] CEA, IRFM, F-13108 St Paul Les Durance, France. [Doerner, R. P.] Univ Calif San Diego, Ctr Energy Res, La Jolla, CA 92093 USA. [Galvao, R.] Ctr Brasileiro Pesquisas Fis, Rua Xavier Sigaud 160, BR-22290180 Rio De Janeiro, Brazil. [Maviglia, F.; Orsitto, F.] Consorzio CREATE, Via Claudio 21, I-80125 Naples, Italy. [Alfier, A.; Auriemma, F.; Baruzzo, M.; Bigi, M.; Bolzonella, T.; Brombin, M.; Carraro, L.; Cavazzana, R.; Cavinato, M.; Cenedese, A.; Chitarin, G.; De Masi, G.; Agostini, F. Degli; Innocente, P.; Lorenzini, R.; Masiello, A.; McCormack, O.; Murari, A.; Nielsen, P.; Paccagnella, R.; Pasqualotto, R.; Peruzzo, S.; Piovesan, P.; Pomaro, N.; Puiatti, M. E.; Rubino, G.; Schmidt, V.; Sonato, P.; Sopplesa, A.; Spagnolo, S.; Taliercio, C.; Taroni, L.; Terranova, D.; Valisa, M.; Vincenzi, P.; Zilli, E.] Consorzio RFX, Corso Stati Uniti 4, I-35127 Padua, Italy. [Kwon, O. J.] Daegu Univ, Gyongsan 712174, Gyeongbuk, South Korea. [Martin-Solis, J. R.] Univ Carlos III Madrid, Dept Fis, Madrid 28911, Spain. [Crombe, K.; Hornung, G.; Shabbir, A.; Telesca, G.] Univ Ghent, Dept Appl Phys UG, St Pietersnieuwstr 41, B-9000 Ghent, Belgium. [Eriksson, F.; Nordman, H.; Strand, P.; Tegnered, D.; Yadikin, D.] Chalmers Univ Technol, Dept Earth & Space Sci, SE-41296 Gothenburg, Sweden. [Cannas, B.; Fanni, A.; Pau, A.; Pisano, F.; Sias, G.] Univ Cagliari, Dept Elect & Elect Engn, Piazza Armi 09123, Cagliari, Italy. [Bogar, O.; Matejcik, S.; Orszagh, J.; Papp, P.; Zaitsev, F. S.] Comenius Univ, Dept Expt Phys, Fac Math Phys & Informat, Mlynska Dolina F2, Bratislava 84248, Slovakia. [Fortuna-Zalesna, E.; Grzonka, J.] Warsaw Univ Technol, Dept Mat Sci, PL-01152 Warsaw, Poland. [Jeong, C.; Kwak, S.] Korea Adv Inst Sci & Technol, Dept Nucl & Quantum Engn, Daejeon 34141, South Korea. [Henderson, S. S.; O'Mullane, M.; Summers, H. P.] Univ Strathclyde, Dept Phys & Appl Phys, Glasgow G4 ONG, Lanark, Scotland. [Sunden, E. Andersson; Binda, F.; Cecconello, M.; Conroy, S.; Dzysiuk, N.; Ericsson, G.; Eriksson, J.; Hellesen, C.; Hjalmarsson, A.; Possnert, G.; Sjostrand, H.; Skiba, M.; Weiszflog, M.] Uppsala Univ, Dept Phys & Astron, SE-75120 Uppsala, Sweden. [Weiland, J.] Chalmers Univ Technol, Dept Phys, S-41296 Gothenburg, Sweden. [Bacharis, M.] Imperial Coll London, Dept Phys, London SW7 2AZ, England. [Rachlew, Elisabeth] KTH, SCI, Dept Phys, SE-10691 Stockholm, Sweden. [Marot, L.; Moser, L.] Univ Basel, Dept Phys, Basel, Switzerland. [Barnes, M.; Highcock, E. G.; Diaz, F. Parra] Univ Oxford, Dept Phys, Oxford OX1 2JD, England. [Chapman, S. C.; Watkins, N. W.] Univ Warwick, Dept Phys, Coventry CV4 7AL, W Midlands, England. [Aggarwal, K. M.; Coffey, I.] Queens Univ, Dept Pure & Appl Phys, Belfast BT7 1NN, Antrim, North Ireland. [Arena, P.; Buscarino, A.; Corradino, C.; Fortuna, L.; Frasca, M.; Palazzo, S.] Univ Catania, Dipartimento Ingn Elettr Elettron & Informat, I-95125 Catania, Italy. [Bisoffi, A.] Univ Trento, Dipartimento Ingn Ind, Trento, Italy. [Leggate, H. J.; Schworer, D.; Somers, A.; Turner, M. M.] Dublin City Univ, Dublin, Ireland. [Blanchard, P.; Coda, S.; Duval, B. P.; Fasoli, A.; Faustin, J. M.; Graves, J. P.; Lanthaler, S.; Martin, Y.; Nespoli, F.; Nicolas, T.; Patten, H.; Pfefferle, D.; Sauter, O.; Testa, D.; Weisen, H.] Swiss Plasma Ctr, EPFL, CH-1015 Lausanne, Switzerland. [Orte, L. Barrera; Donne, T.; Franke, T.; Gal, K.; Guerard, C.; Mayoral, M. L.; McDonald, D.; Regana, J.; Reinhart, M.; Turnyanskiy, M.; Voitsekhovitch, I.] EUROfus Programme Management Unit, Boltzmannstr 2, D-85748 Garching, Germany. [Bekris, N.; Borba, D.; Figueiredo, J.; Fuller, D.; Hacquin, S.; Jachmich, S.; Kim, H. T.; Lonnroth, J.; Murari, A.; von Thun, C. Perez; Solano, E. R.] Culham Sci Ctr, EUROfus Programme Management Unit, Culham OX14 3DB, England. [Eriksson, L. G.; Horton, L. D.; Lennholm, M.; Lowry, C.; Peackoc, A.; Sips, A. C. C.] European Commiss, B-1049 Brussels, Belgium. [Moradi, S.] ULB, Fluid & Plasma Dynam, Campus Plaine CP 231 Blvd Triomphe, B-1050 Brussels, Belgium. [Citrin, J.; den Harder, N.; Hogeweij, G. M. D.; Jaulmes, F.; Shumack, A.; Tsalas, M.; van Rooij, G. J.] FOM Inst DIFFER, Eindhoven, Netherlands. [Abduallev, S.; Beckers, M.; Borodin, D.; Borodkina, I.; Brezinsek, S.; Coenen, J. W.; Denner, P.; Dittmar, T.; Drews, P.; Esser, H. G.; Freisinger, M.; Gao, Y.; Hasenbeck, F.; Huber, A.; Huber, V.; Kirschner, A.; Koeppen, M.; Koslowski, H. R.; Lambertz, H. T.; Li, L.; Liang, Y.; Linke, J.; Linsmeier, Ch.; Marchuk, O.; Martynova, Y.; Mertens, Ph.; von Thun, C. Perez; Philipps, V.; Pintsuk, G.; Rack, M.; Reimold, F.; Reiser, D.; Romazanov, J.; Samm, U.; Schlummer, T.; Sergienko, G.; Wang, E.; Wang, N.; Wiesen, S.; Yanling, W.] Forschungszentrum Julich GmbH, Inst Energie & Klimaforsch Plasmaphys, D-52425 Julich, Germany. [Bravanec, R.] Fourth State Res, 503 Lockhart Dr, Austin, TX USA. [Arshad, S.; Leichtle, D.; Neto, A.; Saibene, G.; Sartori, F.; Sartori, R.] Fus Energy Joint Undertaking, Josep Pl 2,Torres Diagonal Litoral B3, Barcelona 08019, Spain. [Bergsaker, Henric; Bykov, Igor; Frassinetti, Lorenzo; Garcia-Carrasco, Alvaro; Hellsten, Torbjörn; Johnson, Thomas; Menmuir, Sheena; Petersson, Per; Rubel, Marek; Stefanikova, Estera; Ström, Petter; Tholerus, Emmi; Olivares, Pablo Vallejos; Weckmann, Armin.; Zhou, Yushun.] KTH, Fusion Plasma Phys, EES, SE-10044 Stockholm, Sweden. [Gohil, P.; Luce, T.; Mordijck, S.; Soldan, C. Paz] Gen Atom, POB 85608, San Diego, CA 92186 USA. [Strauss, H. R.] HRS Fusion, W Orange, NJ USA. [Alessi, E.; Gervasini, G.; Giacomelli, L.; Laguardia, L.; Lazzaro, E.; Mantica, P.; Marchetto, C.; Muraro, A.; Sozzi, C.; Tardocchi, M.; Uccello, A.; Vianello, N.] IFP CNR, Via R Cozzi 53, I-20125 Milan, Italy. [Abhangi, M.; Buch, J.; Chandra, D.; Dutta, P.; Edappala, P. V.; Ghate, M.; Kundu, A.; Magesh, B.; Makwana, R.; Panja, S.; Pathak, S.; Prajapati, V.; Prakash, R.; Ranjan, S.; Rathod, K.; Santa, P.; Sinha, A.; Stephen, M.; Vasava, K.] Inst Plasma Res, Gandhinagar 382428, Gujarat, India. [Bielecki, J.; Dankowski, J.] Inst Nucl Phys, Radzikowskiego 152, PL-31342 Krakow, Poland. [Ksiazek, I.; Pawelec, E.] Opole Univ, Inst Phys, Oleska 48, PL-45052 Opole, Poland. [Chernyshova, M.; Czarnecka, A.; Galazka, K.; Ivanova-Stanik, I.; Jednorog, S.; Kowalska-Strzeciwilk, E.; Krawczyk, N.; Laszynska, E.; Slabkowska, K.; Szawlowski, M.; Zagorski, R.] Inst Plasma Phys & Laser Microfus, Hery 23, PL-01497 Warsaw, Poland. [Bilkova, P.; Cahyna, P.; Dejarnac, R.; Duran, I.; Ficker, O.; Fuchs, V.; Horacek, J.; Imrisek, M.; Markovic, T.; Mlynar, J.; Paprok, R.; Peterka, M.; Petrzilka, V.; Tomes, M.; Vondracek, P.] Inst Plasma Phys AS CR, Za Slovankou 1782-3, Prague 18200 8, Czech Republic. 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  • Tidskriftsartikel (refereegranskat)abstract
    • We demonstrate the measurement of a 2D MeV-range ion velocity distribution function by velocity-space tomography at JET. Deuterium ions were accelerated into the MeV-range by third harmonic ion cyclotron resonance heating. We made measurements with three neutron emission spectrometers and a high-resolution gamma-ray spectrometer detecting the gamma-rays released in two reactions. The tomographic inversion based on these five spectra is in excellent agreement with numerical simulations with the ASCOT-RFOF and the SPOT-RFOF codes. The length of the measured fast-ion tail corroborates the prediction that very few particles are accelerated above 2 MeV due to the weak wave-particle interaction at higher energies.
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