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Learn about the properties of synchrotron radiation and its wide range of applications in physics, materials science and chemistry with this invaluable reference. This thorough text describes the physical principles of the subject, its source and methods of delivery to the sample, as well as the different techniques that use synchrotron radiation to analyse the electronic properties and structure of crystalline and non-crystalline materials and surfaces. Explains applications to study the structure and electronic properties of materials on a microscopic, nanoscopic and atomic scale. An excellent resource for current and future users of these facilities, showing how the available techniques can complement information obtained in users' home laboratories. Perfect for graduate and senior undergraduate students taking specialist courses in synchrotron radiation, in addition to new and established researchers in the field.

Synchrotron radiation. --- Bremsstrahlung, Magnetic --- Emission, Synchrotron --- Magnetic bremsstrahlung --- Synchrotron emission --- Electromagnetic waves --- Particles (Nuclear physics)

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This book explains the underlying physics of synchrotron radiation and derives its main properties. It is divided into four parts. The first covers the general case of the electromagnetic fields created by an accelerated relativistic charge. The second part concentrates on the radiation emitted by a charge moving on a circular trajectory. The third looks at undulator radiation, covering plane weak undulators, strong undulators and other more general undulators. The final part deals with applications and investigates the optics of synchrotron radiation dominated by diffraction due to the small opening angle. It also includes a description of electron storage rings as radiation sources and the effect of the emitted radiation on the electron beam. This book provides a valuable reference for scientists and engineers in the field of accelerators, and all users of synchrotron radiation.

Synchrotron radiation --- Rayonnement cyclotron --- Synchrotron radiation. --- Bremsstrahlung, Magnetic --- Emission, Synchrotron --- Magnetic bremsstrahlung --- Synchrotron emission --- Electromagnetic waves --- Particles (Nuclear physics)

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The theory of the Vavilov-Cherenkov radiation observed by Cherenkov in 1934 was created by Tamm, Frank and Ginsburg who associated the observed blue light with the uniform charge motion of a charge at the velocity greater than the velocity of light velocity in the medium. On the other hand, Vavilov, Cherenkov's teacher, attributed the observed blue light with the deceleration of electrons. This has given rise to the appearance of papers in which the radiation of a charge uniformly moving in a finite space interval was related to the bremsstrahlung arising at the end points of the motion interv

Cherenkov radiation. --- Synchrotron radiation --- Scientific applications. --- Bremsstrahlung, Magnetic --- Emission, Synchrotron --- Magnetic bremsstrahlung --- Synchrotron emission --- Cerenkov radiation --- Cherenkov light --- Vavilov-Cherenkov radiation --- Electromagnetic waves --- Particles (Nuclear physics) --- Optics --- Radiation

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Synchrotron radiation --- Synchrotrons --- Radiation --- Industrial applications --- Radiation. --- Synchrotrons. --- Synchrotron --- Radiations --- Bremsstrahlung, Magnetic --- Emission, Synchrotron --- Magnetic bremsstrahlung --- Synchrotron emission --- Dose Hypofractionation --- Electromagnetic waves --- Particles (Nuclear physics) --- Radiation Dose Hypofractionation

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621.384.634 --- Synchrotron radiation --- Bremsstrahlung, Magnetic --- Emission, Synchrotron --- Magnetic bremsstrahlung --- Synchrotron emission --- Electromagnetic waves --- Particles (Nuclear physics) --- Varying-field accelerators. Synchrotrons in general --- Synchrotron radiation. --- 621.384.634 Varying-field accelerators. Synchrotrons in general