S. Alberti
Helsinki University of Technology
5 Papers
11 Citations
S. Alberti is an academic researcher from Helsinki University of Technology. The author has contributed to research in topics: Gyrotron & Electron. The author has an hindex of 3, co-authored 5 publications.
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Papers
Gyrotron Development in the EU for Present Fusion Experiments and for ITER
Manfred Thumm,S. Alberti,Andreas Arnold,D. Bariou,G. Dammertz,C. Darbos,Olgierd Dumbrajs,G. Gantenbein,V. Erckmann,E. Giguet,R. Heidinger,J. P. Hogge,S. Illy,J. Jin,W. Kasparek,C. Lievin,R. Magne,G. Michel,B. Piosczyk,O. Prinz,T. Rzesnicki,K. Schwörer,M. Q. Tran,Xiaokang Yang,I. Yovchev +24 more
- 03 Jan 2006
TL;DR: The long term strategy of the EU in the field of gyrotrons in fusion plasma applications is based on two approaches: R&D in laboratories to develop advanced concepts and industrial development of state-of-the-art tubes for use in present experiments like TCV, Tore Supra (118 GHz, 0.5 MW, CW) and W7-X (140 GHz, 1 MW,CW) as mentioned in this paper.
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Status of development of high power coaxial-cavity gyrotron at FZK.
Gerd Gantenbein,T. Rzesnicki,S. Alberti,T. P. Goodman,J.P. Hogge,S. Illy,J. Jin,S. Kern,B. Piosczyk,A. Samartsev,M. Thumm +10 more
- 01 Jan 2009
TL;DR: In this article, the authors proposed a coaxial-cavity gyrotron for ITER with 170GHz ITER reference EPFL-CONF-148661 reference.
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Full absorption of 3rd harmonic ECH in TCV target plasmas produced by 2nd harmonic ECH and ECCD
S. Alberti,T. Goodman,M. Henderson +2 more
- 01 Jan 2000
TL;DR: In this paper, the authors present the results of the 18th IAEA Fusion Energy Conference, Sorrento, Italy, 4-10 October 2000, 4:10-11 October 2000.
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A Comparison of Weakly and Fully Relativistic Electron Cyclotron Wave Damping in the Presence of High Energy Electrons
E. Nelson-Melby,S. Alberti,T. Goodman,M. Henderson,P. Nikkola +4 more
- 01 Jan 2003
TL;DR: In this paper, a weakly relativistic dielectric tensor tensor expression for EH was derived for a toroidal field of 1.45 T at the 2nd harmonic X-mode (X2) near the center of the plasma.
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Development of steady-state 2 MW, 170 GHz gyrotrons for ITER
B. Piosczyk,A. Arnold,G. Dammertz,R. Heidinger,S. Illy,J. Jin,K. Koppenburg,W. Leonhardt,G. Neffe,Tomasz Rzesnicki,M. Schmid,Manfred Thumm,X. Yang,S. Alberti,R. Chavan,D. Fasel,T. Goodman,M. Henderson,J. P. Hogge,M. Q. Tran,I. Yovchev,V. Erckmann,H. P. Laqua,G. Michel,G. Gantenbein,W. Kasparek,Georg Müller,K. Schwörer,D. Bariou,A. Beunas,E. Giguet,G. LeCloarec,F. Legrand,C. Lievin,Olgierd Dumbrajs +34 more
- 01 Jan 2005
TL;DR: In this article, the feasibility for manufacturing a continuously operated high power coaxial cavity gyrotron has been demonstrated and all needed data for an industrial design has been obtained, based on this results the fabrication of a first prototype of a 2 MW, CW, 170 GHz coaxial cavity gyroron started recently in cooperation between European research institutions and European tube industry.
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