Fast scanning probe for tokamak plasmas

Abstract

We describe a fast reciprocating probe drive, which has three main new features: (1) a detachable and modular probe head for easy maintenance, (2) a combination of high heat flux capability, high bandwidth, and low-$Z$ materials construction, and (3) low weight, compact, inexpensive construction. The probe is mounted in a fast pneumatic drive in order to reach plasma regions of interest and remain inserted long enough to obtain good statistics while minimizing the heat flux to the tips and head. The drive is pneumatic and has been designed to be compact and reliable to comply with space and maintenance requirements of tokamaks. The probe described here has five tips which obtain a full spectrum of plasma parameters: electron temperature profile $T_e\mathrm{(r),}$ electron density profile $n_e\mathrm{(r),}$ floating potential profile $V_f\mathrm{(r),}$ poloidal electric field profile $E_{\theta }\mathrm{(r),}$ saturation current profile $I_{\mathrm{sat}}\mathrm{(r),}$ and their fluctuations up to 3 MHz. We describe the probe show radial profiles of various parameters. We compare the density and temperature data to that obtained with a helium beam. We also discuss the techniques to process the data optimally, particularly double probe data and profile fits.