|
[1] Mazzucato E. Microwave imaging reflectometry for the visualization of turbulence in tokamaks [J]. Nucl. Fusion, 2001, 41: 203.
[2] Munsat T, Mazzucato E, Park H, et al. Microwave imaging reflectometer for TEXTOR [J]. Rev. Sci. Instrum., 2003, 4: 1426.
[3] Park H K, Hong L, Kim M, et al. Microwave imaging reflectometry studies for turbulence diagnostics on KSTAR [J]. Rev. Sci. Instrum., 2010, 81: 10D933.
[4] Muscatello C M, Domier C W, Hu X, et al. Technical overview of the millimeter-wave imaging reflectometer on the DⅢ-D tokamak [J]. Rev. Sci. Instrum., 2014, 85: 11D702.
[5] Shi Z B, Jiang M, Che S, et al. Development of microwave imaging diagnostics on the HL-2A tokamak [J]. Plasma and Fusion Research, 2014, 9: 3402123.
[6] Zhu Y L, Xie J L, Yu C X, et al. Millimeter-wave imaging diagnostics systems on the EAST tokamak [J]. Rev. Sci. Instrum., 2016, 87(11): 11D901.
[7] Zhu Y L, Zhao Z L, Tong L, et al. Optics system design of microwave imaging reflectometry for the EAST tokamak [J]. Plasma Sci. Tech. 2016, 18: 449.
[8] Liao W, Gao F X, Qu C M, et al. Bench test of microwave imaging reflectometry system for EAST tokamak [J]. JINST, 2020, 15: C03036.
[9] Zhu Y, Xie J L, Liu W D, et al. The general optics structure of millimeter wave imaging diagnostic on tokamak [J]. Journal of Instrumentation, 2016, 87(11): 11D901.
[10] Munsat T, Mazzucato E, Park H K, et al. Laboratory characterization of an imaging reflectometer system [J]. Plasma Phys. Contr. Fusion, 2003, 45: 469.
|
