Ultra-relativistic electron beams deflection by quasi-mosaic crystals

TL;DR

This paper explains how quasi-mosaic bent crystals can deflect ultra-relativistic electron beams, emphasizing the importance of geometry and orientation for accurate predictions, with implications for gamma-ray light source development.

Contribution

It introduces a detailed methodology accounting for crystal geometry and orientation, improving the understanding of electron beam deflection by quasi-mosaic crystals.

Findings

Successful explanation of experimental electron deflection data

Enhanced understanding of beam distribution peculiarities

Progress towards practical gamma-ray light sources

Abstract

This paper provides an explanation of the key effects behind the deflection of ultra-relativistic electron beams by means of oriented quasi-mosaic Bent Crystals (qmBC). It is demonstrated that accounting for specific geometry of the qmBC and its orientation with respect to a collimated electron beam, its size and emittance is essential for an accurate quantitative description of experimental results on the beam deflection by such crystals. In an exemplary case study a detailed analysis of the recent experiment at the SLAC facility is presented. The methodology developed has enabled to understand the peculiarities in the measured distributions of the deflected electrons. This achievement constitutes an important progress in the efforts towards the practical realization of novel gamma-ray crystal-based light sources and puts new challenges for the theory and experiment in this research area.