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SUMMARY

17th IAEA Technical Meeting on Research Using Small Fusion Devices Lisbon, 22 to 24 October 2007. SUMMARY. Topic A: Toroidal systems Topic D: Theory &numerical modelling G.Van Oost.

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SUMMARY

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  1. 17th IAEA Technical Meeting on Research Using Small Fusion Devices Lisbon, 22 to 24 October 2007 SUMMARY Topic A: Toroidal systems Topic D: Theory &numerical modelling G.Van Oost

  2. Progress on Joint Experiments on Small Tokamaks and other Activities within the IAEA CRP on “Joint Research Using Small Tokamaks” • M Gryaznevich1 , E. Del Bosco2 , G. Van Oost3, A. Malaquias4, G. Mank4 • for the CRP “Joint Research Using Small Tokamaks” team • 1EURATOM/UKAEA Fusion Association, Culham Science Centre, Abingdon, UK • 2 INPE, São José dos Campos, Brazil • 3 Department of Applied Physics, Ghent University, Ghent, Belgium • 4IAEA, NAPC Physics Section, Vienna, Austria • E-mail: mikhail.gryaznevich@ukaea.org.uk. • 1EURATOM/UKAEA Fusion Association, Culham SC, Abingdon, UK

  3. Contributions from small plasma devices to the ITER project Dhiraj Bora ITER Organization, Cadarache, France

  4. 17th IAEA Technical Meeting on Research Using Small Fusion Devices Lisbon, 22 to 24 October 2007 Joint Experiments on the tokamaks CASTOR and T-10 Presented by Guido Van Oost For the CRP “Joint Research Using Small Tokamaks” teams Department of Applied Physics Ghent University B- 9000 Gent Belgium

  5. G Van Oost1, M Gryaznevich2, E Del Bosco4, A Malaquias6, G Mank6 , M Berta5, 13, J Brotankova3, R Dejarnac3, E Dufkova3, I Ďuran3, M Hron3, P Peleman1, J Sentkerestiova3,J Stöckel3, B Tál5, V Weinzettl3, J Zajac3, S Zoletnik5, V Budaev11, N Kirneva11, G Kirnev11, B Kuteev11, A Melnikov11, M Sokolov11, V Vershkov11, I El Chama Neto15, J Ferreira4, R Gonzales14, C R Gutierrez Tapia18, H Hegazy8, P Khorshid12, A W Kraemer-Flecken16, L I Krupnik19 ,Y Kuznetsov7, A M Marques Fonseca17, A Ovsyannikov9, L Ruchko7, E Sukhov9, A Singh10, V Soldatov16, A Talebitaher12, , G M Vorobjev9 1Dep. of Applied Physics, Ghent Univ., Belgium; 2EURATOM/UKAEA Fusion Association, Culham SC, Abingdon, UK; 3Institute of Plasma Physics, Association EURATOM/IPP, Czech Rep.; 4INPE, São José dos Campos, Brazil; 5KFKI-RMKI, Association EURATOM, Budapest, Hungary; 6IAEA, NAPC Physics Section, Vienna, Austria; 7Institute of Physics, Univ. of São Paulo, Brazil; 8EAEA, Cairo, Egypt; 9Saint Petersburg State Univ., Russia; 10Plasma Physics Lab., Univ. of Saskatchewan, Canada; 11RRC “Kurchatov Institute”, Moscow, Russia; 12Plasma Physics Research Center, Teheran, Iran; 13Széchenyi István Univ., Association EURATOM, Győr, Hungary; 14CICATA-IPN, Mexico; 15Univ. Tuiuti Paraná, Brazil;16Forschungszentrum, Julich, Germany; 17IST, Lisbon, Portugal; 18ININ, Mexico; 19Phys-Tech Inst., Kharkov, Ukraine

  6. R.Panek, M.Hron: Tokamak COMPASS Modern tokamak (operational in Culham Laboratory, UK until 2002)Offered to IPP- ASCR, Prague

  7. The study of GAM properties in the T-10 tokamak A.V. Melnikov1, L.G. Eliseev1, S.V. Perfilov1, S.E. Lysenko1, S.A.Grashin1, V.A. Mavrin1, R.V. Shurygin1, D.A. Shelukhin1, V.A. Vershkov1, V.P. Budaev1, G.N. Tilinin1, S.A. Grashin1, L.I. Krupnik2, A.D. Komarov2, A.S. Kozachek2, A. Kraemer-Flecken3, S.V. Soldatov3, G. Ramos4, C.R.Gutierrez-Tapia5, H. Hegazy6, A. Singh7, J. Zajac8, G. Van Oost9 and M. Gryaznevich10 1 Nuclear Fusion Institute, RRC "Kurchatov Institute", 123182, Moscow, Russia, 2 Institute of Plasma Physics, NSC “Kharkov Institute of Physics and Technology”, Kharkov, Ukraine 3 Institut für Plasmaphysik, Forschungszentrum Jülich, EURATOM Association, Jülich, Germany 4 CICATA, Instituto Politécnico Nacional, Mexico 5 Instituto Nacional de Investigaciones Nucleares, Mexico 6 Egyptor project, Egypt 7 University of Saskatchewan, Canada 8 Institute of Plasma Physics, Prague, Czech Republic 9 Ghent University, Belgium IAEA Joint Experiment at RRC “ Kurchatov Institute” 17-th IAEA TM on RUSFD Lisbon

  8. Overview of recent ISTTOK results C. Silva, H. Fernandes, C.A.F. Varandas, D. Alves, B.B. Carvalho, I. Carvalho, P. Carvalho, P.A. Carvalho, R. Coelho, A. Duarte, P. Duarte, J. Ferreira, H. Figueiredo, J. Figueiredo, J. Fortunato, R. Gomes, B. Gonçalves, I. Nedzelskij, A. Neto, T. Pereira, V. Plyusnin, D. Valcárcel Associação Euratom/IST, Centro de Fusão Nuclear, Instituto Superior Técnico 1049-001 Lisboa, Portugal A. Sharakovski, O. Lielausis, A. Klyukin, E. Platacis, I. Tale Association EURATOM/University of Latvia, Institute of Solid State Physics, Riga, Latvia T. Lunt Humboldt-Universitat zu Berlin, Berlin, Germany

  9. Control and data acquisition Edge plasma physics Study of fusion relevant materials Diagnostics JE 3 on ISTTOK

  10. Recent results from the STOR-M tokamak M. Dreval, S. Elgriw, O. Mitarai(1), A. Pant, D. Rohraff, A.K. Singh(2) D. Trembach, C.Xiao,A. Hirose Plasma Physics Laboratory, Department of Physics and Engineering Physics, University of Saskatchewan, Canada. e-mail: akira.hirosei@usask.ca • Institute of Industrial Science and Technical Research, Kyushu Tokai University, Kumamoto, Japan. (2) Dept. of Physics, Utah State Univ., Logan, Utah, USA. CT injection and MHD Simulation of OH Current Start-Up in Iron-Core ST

  11. CONCLUSIONS JE’s ( IAEA CRP) • These first Joint Experiments have clearly demonstrated that small tokamaks are suitable and important for broad international cooperation, providing the necessary environment and manpower to conduct dedicated joint research programmes. • The contribution of small tokamaks to the mainstream fusion research such as edge turbulence, improved confinement, and diagnostics development can be enhanced through coordinated planning. • The activities under this IAEA Coordinated Research Project are already paying visible dividends both in increased number of publications and improved collaboration between participating tokamak teams. • Another important result of joint experiments is the improvement in understanding and communications between scientists from different countries, creating efficient team work both during experiments and data analysis. • Education & Training

  12. European Master In Nuclear Fusion Science and Engineering Physics

  13. Stockholm Gent http://www.em-master-fusion.org Stuttgart Nancy Madrid

  14. Negative Ion based Heating and Diagnostic Neutral Beams for ITER B. Schunke, D. Bora, R. Hemsworth, A. Tanga, et al. ITER Organisation, ITER Organisation – Cadarache, 13108 St.-Paul-lez-Durance, France beatrix.schunke@iter.org

  15. Recent Experiment Results during electron cyclotron heating on HL-2A Y.B.Dong, H.J.Sun, Jun Zhou, W.W.Xiao, L.H.Yao, B.B.Feng, Yi Liu, J.Rao , Q.W.Yang , X.T.Ding , Yong Liu , and C.H.Pan Southwestern Institute of Physics (SWIP), P.O Box 432, Chengdu 610041, China

  16. Runaway electron-loss induced negative and positive loop voltage spikes in Aditya Tokamak Bhooshan Paradkar, J. Ghosh, R. L. Tanna, P. K. Chattopadhyay, D. Raju, S. B. Bhatt, C. V. S. Rao, R. Jha, P. K. Atrey, P. Vasu, Y. C. Sexena, I. Bandopadhyay, P. K. Kaw and Aditya Team Institute for Plasma Research, Bhat, Gandhinagar 382428, India Modelling results match well with observed spiked in loop voltage

  17. Fluid Model of Electron Cyclotron Current Drive G.O. Ludwig Associated Plasma Laboratory, National Space Research Institute 12227-010 São José dos Campos, SP, Brazil A theory was recently advanced to describe the dynamics of electron cyclotron current drive (ECCD) using a simple macroscopic model. One expects to apply the model to the study of both instabilities in ECCD and synergy effects with other current drive means.

  18. 3DMAPTOR code for mapping toroidal magnetic field lines in three dimensions J.Julio E. Herrera-Velázquez Instituto de Ciencias Nucleares, Universidad Nacional Autónoma de México, Apdo. Postal 70-543, Ciudad Universitaria, Delegación Coyoacán, 04511México, D.F. México

  19. Study on electron collisions with Zn-like W ion • Mihailescu, V. Pais, M.C. Totolici, V. Stancalie National Institute for Laser, Plasma & Radiation Physics, Laser. Dept., P.O.Box MG-36,Bucharest, 077125 ROMANIA, Association Euratom MEdC

  20. MODELING OF PARTICLE TRANSPORT ON CHANNELS AND GAPSEXPOSED TO PLASMA FLUXES Martin Nieto-Pérez Instituto Tecnológico de Toluca Av. Tecnologico S/N Col. La Virgen Metepec, Mexico, 52140 MEXICO

  21. Predictive Simulations of Small Tokamak Experiments using BALDUR Integrated Predictive Modeling Code T. Onjun1, A. Boonkajay1, O. Onjun2, N. Poolyarat3and A. Pankin4 1 Sirindhorn International Institute of Technology, Thammasat University, Klongluang, Pathumthani, Thailand 2 Department of Science Service, Bangkok, Thailand 3 Department of Physics, Thammasat University, Pathumthani, Thailand 4 Department of Physics, Lehigh University, Bethlehem, Pennsylvania, USA

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