Self-detection of x-ray Fresnel transmissivity using photoelectron-induced gas ionization

TL;DR

This paper demonstrates a method to detect x-ray Fresnel transmissivity non-invasively using gas ionization, which can improve diagnostics and data collection in x-ray optics and detectors.

Contribution

It introduces a novel approach linking electric response in a gas chamber to x-ray transmissivity, enabling in-situ diagnostics and enhanced detector schemes.

Findings

Electric response correlates with Fresnel transmissivity.

Method allows non-invasive in-situ diagnostics.

Potential for advanced angle and energy-resolving detectors.

Abstract

Electric response of an x-ray mirror enclosed in a gas flow ionization chamber was studied under the conditions of total external reflection for hard x-rays. It is shown that the electric response of the system as a function of the incidence angle is defined by x-ray Fresnel transmissivity and photon-electron attenuation properties of the mirror material. A simple interpretation of quantum yield of the system is presented. The approach could serve as a basis for non-invasive in-situ diagnostics of hard x-ray optics, easy access to complementary x-ray transmissivity data in x-ray reflectivity experiments and might also pave the way to advanced schemes for angle and energy resolving x-ray detectors.