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Qinlin TAO, Peng SHI, Li GAO, Lu WANG, Zhongyong CHEN, Zhonghe JIANG, Yinan ZHOU, Chengyu YANG, Yuhan WANG, Zhipeng CHEN, Nengchao WANG, Zhoujun YANG, Yonghua DING, Yuan PAN, the J-TEXT Team. Development of the HCN heterodyne collective scattering system on J-TEXT[J]. Plasma Science and Technology, 2022, 24(6): 064011. DOI: 10.1088/2058-6272/ac5d08
Citation: Qinlin TAO, Peng SHI, Li GAO, Lu WANG, Zhongyong CHEN, Zhonghe JIANG, Yinan ZHOU, Chengyu YANG, Yuhan WANG, Zhipeng CHEN, Nengchao WANG, Zhoujun YANG, Yonghua DING, Yuan PAN, the J-TEXT Team. Development of the HCN heterodyne collective scattering system on J-TEXT[J]. Plasma Science and Technology, 2022, 24(6): 064011. DOI: 10.1088/2058-6272/ac5d08

Development of the HCN heterodyne collective scattering system on J-TEXT

  • A heterodyne collective scattering system has been designed and developed to investigate the turbulent transport of core plasma on J-TEXT. A dual-HCN laser which consists of two separately pumped HCN gas lasers at 337 μm has been developed as the laser source of the scattering system. The intermediate frequency (IF) is ~1 MHz when there is a 4 μm cavity length difference and capable to maintain stability more than 5 h without manual operation. Detection channels at three different angles (2≤k≤12 cm-1) have been installed with Schottky barrier diode mixers of 893 GHz. The sampling frequency of the acquisition system is 6 MHz to observe low-frequency density fluctuations. Initial experimental results have been detected and more results can be expected in future experiments.
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