Abstract
Long-pulse steady-state discharges with lower hybrid current drive were successfully obtained in the limiter configuration machine, Tore Supra. The hard x-ray (HXR) diagnostic system in Tore Supra associated with tomographic inversion provided a good approximation of the lower hybrid power deposition profile. The accurate plasma current control through this tomographic reconstruction leads to an improvement of plasma confinement. Tore Supra was upgraded to WEST, Tungsten (W) Environment in Steady-state Tokamak. The plasma geometry was changed to the D-shaped geometry. Therefore, a novel inversion code for WEST has been developed. The method used in the code is based on the Bessel function of the first kind of order zero. The code validation was performed using phantom emissivity profiles and WEST experimental data. It has been found that the line radiation of the tungsten divertor in WEST and noise significantly affect the inversion. The local HXR emissivity profile with acceptable accuracy can be achieved by applying a singular value decomposition filter and suppressing the lines of sight that intersect the divertors.
Highlights
One of the primary goals of tokamaks is to reach a long-pulse steady-state operation
We focused only on the hard x-ray (HXR) radiation in the energy range between 60 and 80 keV, which is strongly related to energy absorption from the lower hybrid (LH) wave in Tore Supra and WEST
A noise filter based on singular value decomposition (SVD) has been included in order to filter out the noise and to smooth the measured signals
Summary
One of the primary goals of tokamaks is to reach a long-pulse steady-state operation. The HXR tomography system of Tore Supra determined the local emissivity profile of the fast electrons in real time.. Due to the physical constraint, only a single horizontal HXR camera could be installed This pinhole camera had been designed for HXR measurement in Tore Supra.. This pinhole camera had been designed for HXR measurement in Tore Supra.11 It consists of 38 Cd–Te detectors placed in a housing made of a stainless steel hollow wall filled with 2-cm thick lead. Besides the HXR radiation from the divertor, the detector degradation over time causes an abrupt change in the line integrated signal. These lines of sight have to be suppressed during HXR tomographic analysis
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