Incoherent bremsstrahlung in flat and bent crystals

TL;DR

This paper investigates incoherent bremsstrahlung in flat and bent crystals, using simulations to match experimental data and exploring the potential of bent crystals as undulators for high-energy particles.

Contribution

It applies a developed simulation method to bent crystals and discusses their potential as undulators, aligning simulation results with experimental data.

Findings

Simulation results agree with recent experimental data.

Incoherent bremsstrahlung depends on atomic thermal spread.

Bent crystals can potentially function as undulators.

Abstract

Incoherent bremsstrahlung by high-energy particles in crystal is due to the thermal spread of atoms in relation to their equilibrium positions in the lattice. The simulation procedure developed earlier for the incoherent radiation is applied to the case of the electrons and positrons motion in the sinusoidally bent crystal. The results of simulation are in agreement with the data of recent experiments carried out at the Mainz Microtron MAMI. The possibility of use of the sinusoidally bent crystals as undulators is discussed.