X-rays and gamma rays can penetrate dense matter, offering the possibility to explore characteristics that otherwise would be not observable. They have a wide range of applications in research across different fields, such as medical research, environmental science, and understanding cleaner energy technologies.
The top-performing X-ray and gamma ray sources are synchrotrons and Free Electron Lasers; however, these require large investment. Consequently, more affordable and accessible platforms are required for research and applications based on X-rays and gamma rays. The Compton Back Scattering (CBS) is a subset of Thomson and Compton scattering and is the mechanism through which high energy electrons interacting with low energy photons transfer part of their energy to the photons. Accordingly, an infrared photon can be "transformed" into an X-ray or gamma ray, in a CBS process. Monochromatic and ultrashort X-ray and gamma ray sources are challenging to make; however, CBS provides a compact and accessible platform for this purpose.
Aimed at those entering the field for the first time, this first volume provides a background in classical electromagnetism and relativity to facilitate the understanding of Thomson and Compton particle scattering. The general scattering theories are presented, along with laser and electron beam transport and optics. The theoretical introduction is followed by an overview on the design elements of photon scattering sources and an outlook to future developments. This first volume should equip the reader with the necessary background and insight to understand more advanced topics in Volume 2.
The top-performing X-ray and gamma ray sources are synchrotrons and Free Electron Lasers; however, these require large investment. Consequently, more affordable and accessible platforms are required for research and applications based on X-rays and gamma rays. The Compton Back Scattering (CBS) is a subset of Thomson and Compton scattering and is the mechanism through which high energy electrons interacting with low energy photons transfer part of their energy to the photons. Accordingly, an infrared photon can be "transformed" into an X-ray or gamma ray, in a CBS process. Monochromatic and ultrashort X-ray and gamma ray sources are challenging to make; however, CBS provides a compact and accessible platform for this purpose.
Aimed at those entering the field for the first time, this first volume provides a background in classical electromagnetism and relativity to facilitate the understanding of Thomson and Compton particle scattering. The general scattering theories are presented, along with laser and electron beam transport and optics. The theoretical introduction is followed by an overview on the design elements of photon scattering sources and an outlook to future developments. This first volume should equip the reader with the necessary background and insight to understand more advanced topics in Volume 2.
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