Performance Testing of a Large-Format Reflection Grating Prototype for a Suborbital Rocket Payload
Abstract
The soft X-ray grating spectrometer on board the Off-plane Grating Rocket Experiment (OGRE) hopes to achieve the highest resolution soft X-ray spectrum of an astrophysical object when it is launched via suborbital rocket. Paramount to the success of the spectrometer are the performance of the reflection gratings populating its reflection grating assembly. To test current grating fabrication capabilities, a grating prototype for the payload was fabricated via electron-beam lithography at The Pennsylvania State University's Materials Research Institute and was subsequently tested for performance at Max Planck Institute for Extraterrestrial Physics' PANTER X-ray Test Facility. Bayesian modeling of the resulting data via Markov chain Monte Carlo (MCMC) sampling indicated that the grating achieved the OGRE single-grating resolution requirement of at the 94% confidence level. The resulting posterior probability distribution suggests that this confidence level is likely a conservative estimate though, since only a finite parameter space was sampled and the model could not constrain the upper bound of to less than infinity. Raytrace simulations of the system found that the observed data can be reproduced with a grating performing at . It is therefore postulated that the behavior of the obtained posterior probability distribution can be explained by a finite measurement limit of the system and not a finite limit on . Implications of these results and improvements to the test setup are discussed.
Cite
@article{arxiv.2011.01100,
title = {Performance Testing of a Large-Format Reflection Grating Prototype for a Suborbital Rocket Payload},
author = {Benjamin D. Donovan and Randall L. McEntaffer and Casey T. DeRoo and James H. Tutt and Fabien Grisé and Chad M. Eichfel and Oren Z. Gall and Vadim Burwitz and Gisela Hartner and Carlo Pelliciari and Marlis-Madeleine La Caria},
journal= {arXiv preprint arXiv:2011.01100},
year = {2020}
}
Comments
25 pages, 16 figures, preprint of an article accepted for publication in the Journal of Astronomical Instrumentation \copyright 2020 [copyright World Scientific Publishing Company] [https://www.worldscientific.com/worldscinet/jai]