Electron temperature (T-e) measurements by Thomson scattering system

Thomson scattering technique based on high power laser has already proved i ts superoirity in measuring the electron temperature (T-e) and density (n(e )) in fusion plasma devices like tokamaks. The method is a direct and unamb iguous one, widely used for the localised and simultaneous measurements of the above parameters. In Thomson scattering experiment, the light scattered by the plasma electrons is used for the measurements. The plasma electron temperature is measured from the Doppler shifted scattered spectrum and den sity from the total scattered intensity. A single point Thomson scattering system involving a Q-switched ruby laser and PMTs as the detector is deploy ed in ADITYA tokamak to give the plasma electron parameters. The system is capable of providing the parameters T-e from 30 eV to 1 keV and n(e) from 5 x 10(12)cm(-3)-5 x 10(13)cm(-3). The system is also able to give the param eter profile from the plasma center (Z = 0 cm) to a vertical position of Z = +22 cm to Z = -14 cm, with a spatial resolution of 1 cm on shot to shot b asis. This paper discusses the initial measurements of the plasma temperatu re from ADITYA.