REFERENCES
- V. ERCKMANN and U. GASPARINO, “Electron Cyclotron Resonance Heating and Current Drive in Toroidal Fusion Plasmas,” Plasma Phys. Control. Fusion, 36, 1869 (1994).
- K. HOSHINO et al., “Electron Cyclotron Heating Applied to the JT-60U Tokamak,” Fusion Sci. Technol., 53, 114 (2008).
- J. LOHR et al., “The Electron Cyclotron Resonant Heating System on the DIII-D Tokamak,” Fusion Sci. Technol., 48, 1226 (2005).
- F. LEUTERER et al., “Status of the New ECRH System for ASDEX Upgrade,” Fusion Eng. Des., 74, 199 (2005).
- D. WAGNER et al., “Status of the New Multi-Frequency ECRH System for ASDEX Upgrade,” Nucl. Fusion, 48, 054006 (2008).
- G. G. DENISOV et al., “Development in Russia of High-Power Gyrotrons for Fusion,” Nucl. Fusion, 48,054007 (2008).
- V. ERCKMANN et al., “Electron Cyclotron Heating for W7-X: Physics and Technology,” Fusion Sci. Technol., 52, 291 (2007).
- M. A. HENDERSON et al., “EU Development of the ITER ECRH System,” Fusion Eng. Des., 82, 454 (2007).
- A. KASUGAI et al., “Steady-State Operation of 170 GHz-1 MW Gyrotron for ITER,” Nucl. Fusion, 48, 054009 (2008).
- V. E. ZAPEVALOV et al., “Development of 170 GHz/1 MW Russian Gyrotron for ITER,” Fusion Eng. Des., 53, 377 (2001).
- B. PIOSCZYK et al., “Towards a 2MW, CW,170 GHz Coaxial Cavity Gyrotron for ITER,” Fusion Eng. Des., 66–68, 481 (2003).
- O. MOTOJIMA et al., “Overview of Confinement andMHD Stability in the Large Helical Device,” Nucl. Fusion, 45, 10, S255 (2005).
- H. YAMADA et al., “Energy Confinement and Thermal Transport Characteristics of Net Current Free Plasmas in the Large Helical Device,” Nucl. Fusion, 41, 7, 901 (2001).
- S. KUBO et al., “Extension and Characteristics of an ECRH Plasma in LHD,” Plasma Phys. Control. Fusion, 47, 5A, A81 (2005).
- K. SAKAMOTO et al., “Major Improvement of Gyrotron Efficiency with Beam Energy Recovery,” Phys. Rev. Lett., 73, 3532 (1994).
- T. SHIMOZUMA et al., “Progress on Electron Cyclotron Heating and Electron Cyclotron Current Drive Experiments in LHD,” Fusion Sci. Technol., 50, 403 (2006).
- Y. YOSHIMURA et al., “Achievement of One Hour Discharge with ECH on LHD,” J. Phys. Conf. Ser., 25, 189 (2005).
- K. SAKAMOTO et al., “Achievement of Robust High-Efficiency 1 MW Oscillation in the Hard-Self-Excitation Region by a 170 GHz Continuous-Wave Gyrotron,” Nat. Phys., 3, 411 (2007).
- O. BRAZ et al., “High Power 170 GHz Test of CVD Diamond for ECH Window,” J. Millimeter Waves, 18,1495 (1997).
- M. A. SHAPIRO et al., “Design of Correcting Mirrors for a Gyrotron Used at Large Helical Device,” Fusion Eng. Des., 53, 537 (2001).
- T. NOTAKE et al., “Optimization of Incident Wave Polarization for ECRH in LHD,” Plasma Phys. Control. Fusion, 47, 531 (2005).
- T. SHIMOZUMA et al., “Propagating Mode Analysis and Field Reconstruction in the Corrugated Waveguides of a High Power Electron Cyclotron Heating System,” Proc. 33rd Int. Conf. Infrared, Millimeter, and Terahertz Waves, Pasadena, California, September 15–19, 2008.
- G. L. JAHNS et al., “Measurement of Thermal Transport by Synchronous Detection of Modulated Electron Cyclotron Heating in the Doublet III Tokamak,” Nucl. Fusion, 26, 2, 226 (1986).
- H. J. HARTFUSS et al., “Evaluation of the Local Heat Conductivity Coefficient by Power-Modulated Electron Cyclotron Heating in the Wendelstein VII-A Stellarator,” Nucl. Fusion, 26, 5, 678 (1986).
- L. GIANNONE et al., “Electron Thermal Conductivity from Heat Wave Propagation in Wendelstein 7-AS,” Nucl. Fusion, 32, 11, 1985 (1992).
- M. IWASE et al., “Statistical Estimation of Power Deposition Profile in Electron Cyclotron Heated Plasmas,” Jpn. J. Appl. Phys., 37, 678 (1998).