@prefix prodottidellaricerca: . @prefix istituto: . @prefix prodotto: . istituto:CDS033 prodottidellaricerca:prodotto prodotto:ID265081 . istituto:CDS037 prodottidellaricerca:prodotto prodotto:ID265081 . @prefix pubblicazioni: . @prefix unitaDiPersonaleEsterno: . unitaDiPersonaleEsterno:ID17011 pubblicazioni:autoreCNRDi prodotto:ID265081 . @prefix modulo: . modulo:ID2195 prodottidellaricerca:prodotto prodotto:ID265081 . @prefix unitaDiPersonaleInterno: . unitaDiPersonaleInterno:MATRICOLA11421 pubblicazioni:autoreCNRDi prodotto:ID265081 . modulo:ID2193 prodottidellaricerca:prodotto prodotto:ID265081 . @prefix rdf: . @prefix retescientifica: . prodotto:ID265081 rdf:type retescientifica:ProdottoDellaRicerca , prodotto:TIPO1101 . @prefix rdfs: . prodotto:ID265081 rdfs:label "Overview of ASDEX Upgrade results (Articolo in rivista)"@en . @prefix xsd: . prodotto:ID265081 pubblicazioni:anno "2013-01-01T00:00:00+01:00"^^xsd:gYear ; pubblicazioni:doi "10.1088/0029-5515/53/10/104003"^^xsd:string . @prefix skos: . prodotto:ID265081 skos:altLabel "
U. Stroth; J. Adamek; L. Aho-Mantila; S. \u00C4k\u00E4slompolo; C. Amdor; C. Angioni; M. Balden; S. Bardin; L. Barrera Orte; K. Behler; E. Belonohy; A. Bergmann; M. Bernert; R. Bilato; G. Birkenmeier; V. Bobkov; J. Boom; C. Bottereau; A. Bottino; F. Braun; S. Brezinsek; T. Brochard; M. Br\u00FCdgam; A. Buhler; A. Burckhart; F.J. Casson; A. Chankin; I. Chapman; F. Clairet; I.G.J. Classen; J.W. Coenen; G.D. Conway; D.P. Coster; D. Curran; F. da Silva; P. de Marn\u00E9; R. D'Inca; D. Douai; R. Drube; M. Dunne; R. Dux; T. Eich; H. Eixenberger; N. Endstrasser; K. Engelhardt; B. Esposito; E. Fable; R. Fischer; H. F\u00FCnfgelder; J.C. Fuchs; K. G\u00E1l; M. Garc\u00EDa Mu\u00F1oz; B. Geiger; L. Giannone; T. G\u00F6rler; S. da Graca; H. Greuner; O. Gruber; A. Gude; L. Guimarais; S. G\u00FCnter; G. Haas; A.H. Hakola; D. Hangan; T. Happel; T. H\u00E4rtl; T. Hauff; B. Heinemann; A. Herrmann; J. Hobirk; H. H\u00F6hnle; M. H\u00F6lzl; C. Hopf; A. Houben; V. Igochine; C. Ionita; A. Janzer; F. Jenko; M. Kantor; C.-P. K\u00E4semann; A. Kallenbach; S. K\u00E1lvin; M. Kantor; A. Kappatou; O. Kardaun; W. Kasparek; M. Kaufmann; A. Kirk; H.-J. Klingshirn; M. Kocan; G. Kocsis; C. Konz; R. Koslowski; K. Krieger; M. Kubic; T. Kurki-Suonio; B. Kurzan; K. Lackner; P.T. Lang; P. Lauber; M. Laux; A. Lazaros; F. Leipold; F. Leuterer; S. Lindig; S. Lisgo; A. Lohs; T. Lunt; H. Maier; T. Makkonen; K. Mank; M.-E. Manso; M. Maraschek; M. Mayer; P.J. McCarthy; R. McDermott; F. Mehlmann; H. Meister; L. Menchero; F. Meo; P. Merkel; R. Merkel; V. Mertens; F. Merz; A. Mlynek; F. Monaco; S. M\u00FCller; H.W. M\u00FCller; M. M\u00FCnich; G. Neu; R. Neu; D. Neuwirth; M. Nocente; B. Nold; J.-M. Noterdaeme; G. Pautasso; G. Pereverzev; B. Pl\u00F6ckl; Y. Podoba; F. Pompon; E. Poli; K. Polozhiy; S. Potzel; M.J. P\u00FCschel; T. P\u00FCtterich; S.K. Rathgeber; G. Raupp; M. Reich; F. Reimold; T. Ribeiro; R. Riedl; V. Rohde; G. v. Rooij; J. Roth; M. Rott; F. Ryter; M. Salewski; J. Santos; P. Sauter; A. Scarabosio; G. Schall; K. Schmid; P.A. Schneider; W. Schneider; R. Schrittwieser; M. Schubert; J. Schweinzer; B. Scott; M. Sempf; M. Sertoli; M. Siccinio; B. Sieglin; A. Sigalov; A. Silva; F. Sommer; A. St\u00E4bler; J. Stober; B. Streibl; E. Strumberger; K. Sugiyama; W. Suttrop; T. Tala; G. Tardini; M. Teschke; C. Tichmann; D. Told; W. Treutterer; M. Tsalas; M. A. Van Zeeland; P. Varela; G. Veres; J. Vicente; N. Vianello; T. Vierle; E. Viezzer; B. Viola; C. Vorpahl; M. Wachowski; D. Wagner; T. Wauters; A. Weller; R. Wenninger; B. Wieland; M. Willensdorfer; M. Wischmeier; E. Wolfrum; E. W\u00FCrsching; Q. Yu; I. Zammuto; D. Zasche; T. Zehetbauer; Y. Zhang; M. Zilker; H. Zohm (2013)
Overview of ASDEX Upgrade results
in Nuclear fusion; International Atomic Energy Agency, Vienna (Austria); IOP PUBLISHING LTD, BRISTOL BS1 6BE (Regno Unito)
"^^rdf:HTML ; pubblicazioni:autori "U. Stroth; J. Adamek; L. Aho-Mantila; S. \u00C4k\u00E4slompolo; C. Amdor; C. Angioni; M. Balden; S. Bardin; L. Barrera Orte; K. Behler; E. Belonohy; A. Bergmann; M. Bernert; R. Bilato; G. Birkenmeier; V. Bobkov; J. Boom; C. Bottereau; A. Bottino; F. Braun; S. Brezinsek; T. Brochard; M. Br\u00FCdgam; A. Buhler; A. Burckhart; F.J. Casson; A. Chankin; I. Chapman; F. Clairet; I.G.J. Classen; J.W. Coenen; G.D. Conway; D.P. Coster; D. Curran; F. da Silva; P. de Marn\u00E9; R. D'Inca; D. Douai; R. Drube; M. Dunne; R. Dux; T. Eich; H. Eixenberger; N. Endstrasser; K. Engelhardt; B. Esposito; E. Fable; R. Fischer; H. F\u00FCnfgelder; J.C. Fuchs; K. G\u00E1l; M. Garc\u00EDa Mu\u00F1oz; B. Geiger; L. Giannone; T. G\u00F6rler; S. da Graca; H. Greuner; O. Gruber; A. Gude; L. Guimarais; S. G\u00FCnter; G. Haas; A.H. Hakola; D. Hangan; T. Happel; T. H\u00E4rtl; T. Hauff; B. Heinemann; A. Herrmann; J. Hobirk; H. H\u00F6hnle; M. H\u00F6lzl; C. Hopf; A. Houben; V. Igochine; C. Ionita; A. Janzer; F. Jenko; M. Kantor; C.-P. K\u00E4semann; A. Kallenbach; S. K\u00E1lvin; M. Kantor; A. Kappatou; O. Kardaun; W. Kasparek; M. Kaufmann; A. Kirk; H.-J. Klingshirn; M. Kocan; G. Kocsis; C. Konz; R. Koslowski; K. Krieger; M. Kubic; T. Kurki-Suonio; B. Kurzan; K. Lackner; P.T. Lang; P. Lauber; M. Laux; A. Lazaros; F. Leipold; F. Leuterer; S. Lindig; S. Lisgo; A. Lohs; T. Lunt; H. Maier; T. Makkonen; K. Mank; M.-E. Manso; M. Maraschek; M. Mayer; P.J. McCarthy; R. McDermott; F. Mehlmann; H. Meister; L. Menchero; F. Meo; P. Merkel; R. Merkel; V. Mertens; F. Merz; A. Mlynek; F. Monaco; S. M\u00FCller; H.W. M\u00FCller; M. M\u00FCnich; G. Neu; R. Neu; D. Neuwirth; M. Nocente; B. Nold; J.-M. Noterdaeme; G. Pautasso; G. Pereverzev; B. Pl\u00F6ckl; Y. Podoba; F. Pompon; E. Poli; K. Polozhiy; S. Potzel; M.J. P\u00FCschel; T. P\u00FCtterich; S.K. Rathgeber; G. Raupp; M. Reich; F. Reimold; T. Ribeiro; R. Riedl; V. Rohde; G. v. Rooij; J. Roth; M. Rott; F. Ryter; M. Salewski; J. Santos; P. Sauter; A. Scarabosio; G. Schall; K. Schmid; P.A. Schneider; W. Schneider; R. Schrittwieser; M. Schubert; J. Schweinzer; B. Scott; M. Sempf; M. Sertoli; M. Siccinio; B. Sieglin; A. Sigalov; A. Silva; F. Sommer; A. St\u00E4bler; J. Stober; B. Streibl; E. Strumberger; K. Sugiyama; W. Suttrop; T. Tala; G. Tardini; M. Teschke; C. Tichmann; D. Told; W. Treutterer; M. Tsalas; M. A. Van Zeeland; P. Varela; G. Veres; J. Vicente; N. Vianello; T. Vierle; E. Viezzer; B. Viola; C. Vorpahl; M. Wachowski; D. Wagner; T. Wauters; A. Weller; R. Wenninger; B. Wieland; M. Willensdorfer; M. Wischmeier; E. Wolfrum; E. W\u00FCrsching; Q. Yu; I. Zammuto; D. Zasche; T. Zehetbauer; Y. Zhang; M. Zilker; H. Zohm"^^xsd:string ; pubblicazioni:paginaInizio "104003"^^xsd:string ; pubblicazioni:altreInformazioni "Article Number 104003;\nE-ISSN: 1741-4326."^^xsd:string ; pubblicazioni:url "http://iopscience.iop.org/0029-5515/53/10/104003/"^^xsd:string ; pubblicazioni:numeroVolume "53"^^xsd:string . @prefix ns12: . prodotto:ID265081 pubblicazioni:rivista ns12:ID395883 ; pubblicazioni:pagineTotali "9"^^xsd:string ; pubblicazioni:numeroFascicolo "10"^^xsd:string ; skos:note "ISI Web of Science (WOS)"^^xsd:string , "Scopu"^^xsd:string ; pubblicazioni:affiliazioni "Max-Planck-Institut f\u00FCr Plasmaphysik, EURATOM-Association, Boltzmannstr. 2, 85748 Garching, Germany / 1 Institute of Plasm a Physics, Praha, Czech Republic / 2 Asscociation EURATOM-Tekes, Helsinki, Finland / 3 Institute of Atomic Physics, EURATOM Association-MEdC, Romania / 4 FOM-Institute DIFFER, EURATOM Association, TEC, Nieuwegein, The Netherlands / 5 C.R.E ENEA Frascati, EURATOM Association, CP 65, 00044 Frascati, (Rome), Italy / 6 IPFN, EURATOM Association-IST Lisbon, Portugal / 7 KFKI, EURATOM Association-HAS, Budapest, Hungary / 8 EURATOM/CCFE Fusion Association, Culham Science Centre, UK / 9 General Atomics, San Diego, California, 92186-5608, USA / 10 Institut f\u00FCr Plasmaforschung, Universit\u00E4t Stuttgart, Germany / 11 University of Innsbruck, EURATOM Association-\u00D6AW, Austria / 12 Forschungszentrum J\u00FClich, EURATOM-Association, Inst. Energie & Klimaforschung, Plasmaphysik, D-52425 J\u00FClich, Germany / 13 Association EURATOM - DTU, Department of Physics, Technical University of Denmark, Ris\u00D8 Campus, DK-4000 Roskilde, Denmark / 14 EURATOM Association-ENEA, IFP, CNR, Milano, Italy / 15 Consorzio RFX, EURATOM Association-ENEA, Padova, Italy / 16 Physics Department, University College Cork, Association EURATOM-DCU, Ireland / 17 IAP, TU Wien, EURATOM Association-\u00D6AW, Austria / 18 Dept. Mech. & Aerospace Eng. UCSD, 9500 Gilman Drive, La Jolla CA 92093, USA / 19 CEA, Cadarache, France / 20 Institut Jean Lamour, UMR 7198 CNRS, Vandoeuvre, France / 21 Warsaw Univ. of Technology, Pl. Politechniki 1, 00-661 Warsaw, Poland / 22 National Technical University of Athens Association Euratom/Hellenic-Republic, Athens, Greece.\n(U. Stroth11, J. Adamek1, L. Aho-Mantila2, S. \u00C4k\u00E4slompolo2, C. Amdor6, C. Angioni11, M. Balden11, S. Bardin3, L. Barrera Orte11, K. Behler11, E. Belonohy11, A. Bergmann11, M. Bernert11, R. Bilato11, G. Birkenmeier11, V. Bobkov11, J. Boom4, C. Bottereau19, A. Bottino, F. Braun, S. Brezinsek12, T. Brochard20, M. Br\u00FCdgam, A. Buhler, A. Burckhart, F.J. Casson, A. Chankin, I. Chapman8, F. Clairet19, I.G.J. Classen4, J.W. Coenen12, G.D. Conway, D.P. Coster, D. Curran16, F. da Silva6, P. de Marn\u00E9, R. D'Inca, D. Douai19, R. Drube, M. Dunne16, R. Dux, T. Eich, H. Eixenberger, N. Endstrasser, K. Engelhardt, B. Esposito5, E. Fable, R. Fischer, H. F\u00FCnfgelder, J.C. Fuchs, K. G\u00E1l, M. Garc\u00EDa Mu\u00F1oz, B. Geiger, L. Giannone, T. G\u00F6rler, S. da Graca6, H. Greuner, O. Gruber, A. Gude, L. Guimarais6, S. G\u00FCnter, G. Haas, A.H. Hakola2, D. Hangan, T. Happel, T. H\u00E4rtl, T. Hauff, B. Heinemann, A. Herrmann, J. Hobirk, H. H\u00F6hnle10, M. H\u00F6lzl, C. Hopf, A. Houben, V. Igochine, C. Ionita11, A. Janzer, F. Jenko, M. Kantor, C.-P. K\u00E4semann, A. Kallenbach, S. K\u00E1lvin7, M. Kantor12, A. Kappatou4, O. Kardaun, W. Kasparek10, M. Kaufmann, A. Kirk8, H.-J. Klingshirn, M. Kocan, G. Kocsis7, C. Konz, R. Koslowski12, K. Krieger, M. Kubic19, T. Kurki-Suonio2, B. Kurzan, K. Lackner, P.T. Lang, P. Lauber, M. Laux, A. Lazaros22, F. Leipold13, F. Leuterer, S. Lindig, S. Lisgo19, A. Lohs, T. Lunt, H. Maier, T. Makkonen, K. Mank, M.-E. Manso5, M. Maraschek, M. Mayer, P.J. McCarthy16, R. McDermott, F. Mehlmann11, H. Meister, L. Menchero, F. Meo13, P. Merkel, R. Merkel, V. Mertens, F. Merz, A. Mlynek, F. Monaco, S. M\u00FCller18, H.W. M\u00FCller, M. M\u00FCnich, G. Neu, R. Neu, D. Neuwirth, M. Nocente14, B. Nold10, J.-M. Noterdaeme, G. Pautasso, G. Pereverzev, B. Pl\u00F6ckl, Y. Podoba, F. Pompon, E. Poli, K. Polozhiy, S. Potzel, M.J. P\u00FCschel, T. P\u00FCtterich, S.K. Rathgeber, G. Raupp, M. Reich, F. Reimold, T. Ribeiro, R. Riedl, V. Rohde, G. v. Rooij4, J. Roth, M. Rott, F. Ryter, M. Salewski13, J. Santos6, P. Sauter, A. Scarabosio, G. Schall, K. Schmid, P.A. Schneider, W. Schneider, R. Schrittwieser11, M. Schubert, J. Schweinzer, B. Scott, M. Sempf, M. Sertoli, M. Siccinio, B. Sieglin, A. Sigalov, A. Silva6, F. Sommer, A. St\u00E4bler, J. Stober, B. Streibl, E. Strumberger, K. Sugiyama, W. Suttrop, T. Tala2, G. Tardini, M. Teschke, C. Tichmann, D. Told, W. Treutterer, M. Tsalas4, M. A. Van Zeeland9, P. Varela6, G. Veres7, J. Vicente6, N. Vianello15, T. Vierle, E. Viezzer, B. Viola15, C. Vorpahl, M. Wachowski21, D. Wagner, T. Wauters19, A. Weller, R. Wenninger, B. Wieland, M. Willensdorfer17, M. Wischmeier, E. Wolfrum, E. W\u00FCrsching, Q. Yu, I. Zammuto, D. Zasche, T. Zehetbauer, Y. Zhang, M. Zilker, H. Zohm)"^^xsd:string ; pubblicazioni:titolo "Overview of ASDEX Upgrade results"^^xsd:string ; prodottidellaricerca:abstract "The medium size divertor tokamak ASDEX Upgrade (major and minor radii 1.65 m and 0.5 m, respectively, magnetic-field strength 2.5 T) possesses flexible shaping and versatile heating and current drive systems. Recently the technical capabilities were extended by increasing the electron cyclotron resonance heating (ECRH) power, by installing 2 \u00D7 8 internal magnetic perturbation coils, and by improving the ion cyclotron range of frequency compatibility with the tungsten wall. With the perturbation coils, reliable suppression of large type-I edge localized modes (ELMs) could be demonstrated in a wide operational window, which opens up above a critical plasma pedestal density. The pellet fuelling efficiency was observed to increase which gives access to H-mode discharges with peaked density profiles at line densities clearly exceeding the empirical Greenwald limit. Owing to the increased ECRH power of 4 MW, H-mode discharges could be studied in regimes with dominant electron heating and low plasma rotation velocities, i.e. under conditions particularly relevant for ITER. The ion-pressure gradient and the neoclassical radial electric field emerge as key parameters for the transition. Using the total simultaneously available heating power of 23 MW, high performance discharges have been carried out where feed-back controlled radiative cooling in the core and the divertor allowed the divertor peak power loads to be maintained below 5 MW m-2. Under attached divertor conditions, a multi-device scaling expression for the power-decay length was obtained which is independent of major radius and decreases with magnetic field resulting in a decay length of 1 mm for ITER. At higher densities and under partially detached conditions, however, a broadening of the decay length is observed. In discharges with density ramps up to the density limit, the divertor plasma shows a complex behaviour with a localized high-density region in the inner divertor before the outer divertor detaches. Turbulent transport is studied in the core and the scrape-off layer (SOL). Discharges over a wide parameter range exhibit a close link between core momentum and density transport. Consistent with gyro-kinetic calculations, the density gradient at half plasma radius determines the momentum transport through residual stress and thus the central toroidal rotation. In the SOL a close comparison of probe data with a gyro-fluid code showed excellent agreement and points to the dominance of drift waves. Intermittent structures from ELMs and from turbulence are shown to have high ion temperatures even at large distances outside the separatrix."@en . @prefix ns13: . prodotto:ID265081 pubblicazioni:editore ns13:ID6572 , ns13:ID13887 ; prodottidellaricerca:prodottoDi istituto:CDS033 , modulo:ID2195 , modulo:ID2193 , istituto:CDS037 ; pubblicazioni:autoreCNR unitaDiPersonaleInterno:MATRICOLA11421 , unitaDiPersonaleEsterno:ID17011 . ns12:ID395883 pubblicazioni:rivistaDi prodotto:ID265081 . ns13:ID6572 pubblicazioni:editoreDi prodotto:ID265081 . ns13:ID13887 pubblicazioni:editoreDi prodotto:ID265081 .