Author:
Jacquinot J.,Albajar F.,Beaumont B.,Becoulet A.,Bonicelli T.,Bora D.,Campbell D.,Chakraborty A.,Darbos C.,Decamps H.,Denisov G.,Goulding R.,Graceffa J.,Gassmann T.,Hemsworth R.,Henderson M.,Hoang G.T.,Inoue T.,Kobayashi N.,Lamalle P.U.,Mukherjee A.,Nightingale M.,Rasmussen D.,Rao S.L.,Saibene G.,Sakamoto K.,Sartori R.,Schunke B.,Sonato P.,Swain D.,Takahashi K.,Tanaka M.,Tanga A.,Watanabe K.
Subject
Mechanical Engineering,General Materials Science,Nuclear Energy and Engineering,Civil and Structural Engineering
Reference24 articles.
1. N. Holtkamp, ITER, Review paper, this conference.
2. T. Tsunematsu, The broader approach to fusion energy, Review paper, this conference.
3. Achievement of robust high-efficiency 1MW oscillation in the hard-self-excitation region by a 170GHz continuous-wave gyrotron;Sakamoto;Nat. Phys.,2007
4. S. Alberti, et al., Status of development of the 2MW, 170GHz coaxial-cavity gyrotron for ITER, in: Proceedings of the 33rd International Conference on Infrared, Millimeter, and Terahertz Waves, Id. 1413, submitted.
5. A 2-MW, 170-GHz, coaxial cavity gyrotron;Piosczyk;IEEE Trans. Plasma Sci.,2004