Abstract
Second harmonic plasma breakdown using electron cyclotron (EC) waves has been studied experimentally in the helical-heliotron device Heliotron J. The magnetic field and the injected EC beam parameters such as power, polarization and injection angle are scanned. The experimental results show that the plasma starts up around the crossing point between the injected EC beam and the resonance layer. The initial plasma moves as the crossing point is shifted. The breakdown is earliest when the beam crosses the resonant layer around the magnetic axis with the X-mode polarization. These results indicate that the single pass absorption has the dominant role on the breakdown rather than the multi-reflection absorption, although the linear absorption is quite low. The bumpiness component in the magnetic field spectrum is also scanned from negative to positive values with the resonance located on-axis. The breakdown is most delayed when the bumpiness component is zero, suggesting that the confinement of accelerated electrons is important.
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