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Fundamentals of x-ray physics /

Annotation.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Pavlinsky, G. V.
Formato: Electrónico eBook
Idioma:Inglés
Ruso
Publicado: Cambridge : Cambridge International Science Pub., 2008.
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Contents
  • Preface
  • Introduction
  • 1. Characteristic X-ray Radiation
  • 1.1. Development of concepts of the atom structure
  • 1.2. The equation for the energy of x-ray levels of the atom
  • 1.3. Systematics of characteristic lines
  • 1.4. Intensity of the lines of the characteristic spectrun
  • 2. Bremsstrahlung
  • 2.1. Spectral distribution of the intensity of bremsstrahlung
  • 2.2. Spatial distribution of bremsstrahlung
  • 2.3. Polarisation of bremsstrahlung
  • 3. Sources of x-ray radiation
  • 3.1. X-radiation excited by the electron beam. X-ray tubes
  • 3.2. Excitation of x-radiation by the ion beam3.2.1. Characteristic radiation
  • 3.3. Radioactive sources of x-ray radiation
  • 3.4. Synchrotron â€? a source of x-ray radiation
  • 3.5. X-ray radiation of high-temperature plasma
  • 3.6. X-ray lasers
  • 4. Absorption of x-ray radiation
  • 4.1. Electronic, partial and atomic coefficients of absorption
  • 4.2. Absorption jumps
  • 4.3. Structure of absorption edges
  • 4.4. Linear and mass coefficient of attenuation of x-ray radiation
  • 5. Scattering of x-ray radiation
  • 5.1. Scattering of x-ray radiation on free electrons5.2. The scattering of x-ray radiation on atoms
  • 5.3. Intensity of x-ray radiation scattered by a thick specimen
  • 5.4. Scattering of x-ray radiation by ordered structures
  • 5.5. Resonance combination scattering of x-ray radiation
  • 6. Refraction and reflectionof x-ray radiation
  • 6.1. Theoretical fundamentals of studying dispersion
  • 6.2. Refraction of x-rays
  • 6.3. Total external reflection of x-ray radiation
  • 6.4. Interference of x-ray radiation
  • 6.5. Practical application of the optical properties of x-ray radiation7. Free electrons, formed in irradiated material. Bremsstrahlung of these electrons
  • 7.1. Photoelectrons
  • 7.2. Auger electrons
  • 7.3. Recoil electrons (Compton electrons)
  • 7.4. Bremsstrahlung of photoelectrons, Auger electrons and recoil electrons
  • 7.5. Comparison of spectral distributions of bremsstrahlung of photo-, Auger and Compton electrons
  • 8. X ray fluorescence
  • 8.1. Intensity of x-ray fluorescence
  • 8.2. Effect of the particle size on the intensity of x-ray fluorescence
  • 8.3. Effect of the element composition of the specimen on the intensity of x-ray fluorescence8.4. Dependence of the intensity of x-ray fluorescence on primary radiation wavelength
  • 8.5. Process of excitation of x-ray fluorescence for the case in which the areas of absorption of primary radiation and formation of a fluorescent photon coincide
  • 8.6. Processes of excitation of x-ray fluorescence for the case in which the areas of interaction of primary radiation and formation of the fluorescent photon differ
  • 8.7. Selective absorption of primary radiation