Performance predictions of the SPARC x-ray crystal spectrometers for ion temperature and toroidal rotation measurements

Author(s)

Perks, C; Vezinet, D; Rice, JE; Reinke, ML

Abstract

SPARC will be outfitted with three systems of x-ray crystal spectrometer arrays. Two of these are designed using cylindrically bent crystals to achieve high spectral-resolution for ion temperature and toroidal velocity measurements via imaging He-like Kr and Ne-like Xe. The last acts as a spectral survey system to monitor Ne-like W and nearby H- and He-like emission from Cr, Fe, Co, Ni, and Cu. Line radiation intensities are calculated using the Flexible Atomic Code for atomic data and ColRadPy for collisional-radiative modeling, then convoluted with a Voigt line shape. Free–free, free-bound, and two-photon continuum radiation is also included. The ToFu code is used to perform volume-of-sight integration to produce synthetic detector images. In addition, presented is cross-validation performed using the XICSRT Monte Carlo ray-tracing code. Ion temperature and toroidal velocity profiles are reconstructed using ToFu via tomographic inversion.

Date issued

2024-08-27

URI

https://hdl.handle.net/1721.1/165063

Department

Massachusetts Institute of Technology. Plasma Science and Fusion Center

Journal

Review of Scientific Instruments

Publisher

AIP Publishing

Citation

C. Perks, D. Vezinet, J. E. Rice, M. L. Reinke; Performance predictions of the SPARC x-ray crystal spectrometers for ion temperature and toroidal rotation measurements. Rev. Sci. Instrum. 1 August 2024; 95 (8): 083555.

Version: Final published version