The Thomson scattering diagnostic systems are widely used for the measurements of absolute local electron temperatures and densities of fusion plasmas. In order to obtain accurate and reliable temperature and density data, careful calibrations of the system are required. We have tried several calibration methods since the second LHD experiment campaign in 1998. We summarize the current status of the calibration methods for the electron temperature and density measurements by the LHD Thomson scattering diagnostic system. Future plans are briefly discussed
Thomson scattering has been shown to be a valuable technique for measuring the plasma conditions in ...
As a signal processing method for fast digitizers of the switched-capacitor-type in Thomson scatteri...
Thomson scattering measurements with a high-repetition-rate laser have commenced in the Large Helica...
In Large Helical Device (LHD) experiments, an electron temperature (Te) more than 15 keV has been o...
The large helical device Thomson scattering system was designed for the target electron temperature ...
We have developed a television (TV) Thomson scattering and installed it on the large helical device ...
In order to measure reliable electron densities of fusion plasmas by using Thomson scattering system...
This paper evaluates the accuracy of electron temperature measurements and relative transmissivities...
In this work we show results of measurements of the electron density ne and temperature Te by using ...
The DIII-D Thomson system measures electron density and temperature with eight pulsed ND:YAG lasers ...
Thomson scattering diagnostics provide electron temperature (Te) and density profiles in plasmas. Th...
We have calibrated the LHD yttrium aluminum garnet (YAG) Thomson scattering system by using anti-Sto...
An in situ spectral calibration method for Thomson scattering systems, which uses a double-pass scat...
Calibration procedures for Thomson scattering systems based on television-like cameras, so-called TV...
Recently we modified the Thomson scattering diagnostic (TS) installed on LHD so that DC levels (VDC)...
Thomson scattering has been shown to be a valuable technique for measuring the plasma conditions in ...
As a signal processing method for fast digitizers of the switched-capacitor-type in Thomson scatteri...
Thomson scattering measurements with a high-repetition-rate laser have commenced in the Large Helica...
In Large Helical Device (LHD) experiments, an electron temperature (Te) more than 15 keV has been o...
The large helical device Thomson scattering system was designed for the target electron temperature ...
We have developed a television (TV) Thomson scattering and installed it on the large helical device ...
In order to measure reliable electron densities of fusion plasmas by using Thomson scattering system...
This paper evaluates the accuracy of electron temperature measurements and relative transmissivities...
In this work we show results of measurements of the electron density ne and temperature Te by using ...
The DIII-D Thomson system measures electron density and temperature with eight pulsed ND:YAG lasers ...
Thomson scattering diagnostics provide electron temperature (Te) and density profiles in plasmas. Th...
We have calibrated the LHD yttrium aluminum garnet (YAG) Thomson scattering system by using anti-Sto...
An in situ spectral calibration method for Thomson scattering systems, which uses a double-pass scat...
Calibration procedures for Thomson scattering systems based on television-like cameras, so-called TV...
Recently we modified the Thomson scattering diagnostic (TS) installed on LHD so that DC levels (VDC)...
Thomson scattering has been shown to be a valuable technique for measuring the plasma conditions in ...
As a signal processing method for fast digitizers of the switched-capacitor-type in Thomson scatteri...
Thomson scattering measurements with a high-repetition-rate laser have commenced in the Large Helica...