We report on the growth of GdCa4O(BO3)3 (GdCOB) and YCa4O(BO3)3 (YCOB) crystals and their characterization as new nonlinear optical materials. The crystals with good optical quality were grown by the Czochralski method. YCOB, the characteristics of which has not previously been reported to our knowledge, has a larger temperature acceptance bandwidth than that of GdCOB, and third harmonic generation of a Nd:YAG laser in this crystal was demonstrated.
The central electron temperature has successfully reached up to 7.5 keV in Large Helical Device (LHD) plasmas with a central high-ion temperature of 5 keV and central electron density of 1.3 × 10 19 m −3 . The result was obtained by heating with a newly-installed 154 GHz gyrotron and also optimization of injection geometry in electron cyclotron heating (ECH). The optimization has been carried out by using the ray-tracing code "LHDGauss," which has been upgraded to include the rapid post-processing three-dimensional (3D) equilibrium mapping obtained from experiments. For ray-tracing calculations, LHDGauss can automatically read the relevant data registered in the LHD database after a discharge, such as ECH injection settings (e.g., Gaussian beam parameters, target positions, polarization, and ECH power) and Thomson scattering diagnostic data along with the 3D equilibrium mapping data. The equilibrium map of the electron density and temperature profiles is then extrapolated into the region outside of the last closed flux surface. Mode purity, or the ratio between the ordinary mode and the extraordinary mode, is obtained by calculating the 1D full-wave equation along the direction of the rays from the antenna to the absorption target point. Using the virtual magnetic flux surfaces, the effects of the modeled density profiles and the magnetic shear at the peripheral region with a given polarization are taken into account. Power deposition profiles calculated for each Thomson scattering measurement timing are registered in the LHD database. Adjustment of the injection settings for the desired deposition profile from feedback provided on a shot-by-shot basis has resulted in an effective experimental procedure.
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