![]() Accordingly, this thesis may serve as a guide and reference work for researchers working with inverse Compton X-ray sources as well as future users of such devices. 2-5 present an example of the data tables relevant to the Compton scattering process for Hydrogen. 3) 3) average energy of secondary electron (Fig. 2) 2) average energy of the scattered photon (Fig. Additionally, a new X-ray microscopy technique, called full-field structured-illumination super-resolution X-ray transmission microscopy, is presented.Īpart from research conducted at the MuCLS, this thesis contains an in-depth overview on the state of the art of the various types of inverse Compton X-ray sources that have been realised so far. data relevant to Compton scattering process are given for each element: 1) the cross section (Fig. Among them are K-edge subtraction imaging, X-ray phase contrast imaging and X-ray absorption spectroscopy. Nonlinear electrodynamics in the relativistically intense linearly polarized laser field changes the radiation kinetics established during the Compton interaction. On the application side, the beamline, designed and developed for the inverse Compton X-ray source at the MuCLS, is described before various techniques and applications are demonstrated at this laboratory-scale synchrotron X-ray facility. Inverse Compton scattering between beams of laser photons and relativistic electrons of accelerator is an effective method of generating X/ -rays.Based on the inverse Compton scattering method there were several famous Laser Compton Scattering (LCS) gamma source facilities in the past half century, such as Ladon 1, 2, LEGS 3, Graal 4, and ROKK 5. Inverse Compton scattering of laser photons by ultrarelativistic electron beam provides polarized x- to -ray pulses due to the Doppler blueshifting. On this basis, upgrades to the laser system including the development of a new laser optic, X-ray beam stabilisation and two techniques for fast X-ray energy switching of inverse Compton sources are presented. We scrutinize the polarization properties of inverse Compton scattered unpolarized CMB photons in Section 3.4, and study the polarization properties of inverse Compton radiation emitted in the KleinNishina regime in Section 3.5. It provides an introduction to the theory of this laser-electron interaction, laser resonators and X-ray interactions with matter. This thesis presents research on novel laboratory-scale synchrotron X-ray sources based on inverse Compton scattering and applications of their X-ray radiation using the Munich Compact Light Source (MuCLS) as an example.
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