High-energy Nuclear Optics of Polarized Particles.
The various phenomena caused by refraction and diffraction of polarized elementary particles in matter have opened up a new research area in the particle physics: nuclear optics of polarized particles. Effects similar to the well-known optical phenomena such as birefringence and Faraday effects, exi...
Clasificación: | Libro Electrónico |
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Autor principal: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Singapore :
World Scientific,
2012.
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Preface; Acknowledgments; Contents; Introduction; Nuclear Optics of Polarized Matter. Nuclear Pseudomagnetism; 1. Refraction and mirror reflection from a matter-vacuum plane boundary; 1.1 Radiation and Scattering of Waves and Particles; 1.2 Refraction and Mirror Reflection; 1.3 The Optical Theorem; 1.4 Scattering of Waves by a Set of Scatterers; 2. Neutron spin "optical" rotation in matter with polarized nuclei. Nuclear pseudomagnetism; 2.1 Polarized Beams and Polarized Targets; 2.2 Phenomenon of Neutron Spin Precession in a Pseudomagnetic Field of Matter with Polarized Nuclei.
- 2.3 Refraction of Neutrons in a Magnetized Medium2.4 The Schrodinger Equation for a Coherent Neutron Wave Moving in a Polarized Nuclear Target; 2.4.1 Paramagnetic resonance in a nuclear pseudomagnetic field; 2.4.2 Spontaneous radiation of photons accompanying the passage of light through anisotropic matter; 2.5 Neutron and Atomic-Spin Interferometry. Atom (Molecule) Spin Rotation and Oscillation under Refraction in a Constant Electric Field; 2.5.1 Nonorthogonal Quasistationary States; 3. Gamma-optics of polarized matter.
- 3.1 The Phenomenon of Rotation of the Polarization Plane of?-Quanta in Matter with Polarized Electrons. Magnetic X-ray Scattering3.2 Birefringence of?-Quanta in a Target with Polarized Nuclei; 4. Diffraction of particles in polarized crystals; 4.1 Refraction of a Coherent Wave in Polarized Crystals; 4.2 Multifrequency Nuclear Precession of Neutrons in Polarized Crystals with Ferromagnetic and Antiferromagnetic Ordering; 4.3 Magnetic Diffraction of Neutrons; 4.4 Multifrequency Precession of the Neutron Spin in a Uniform Magnetic Field.
- 4.5 The Bragg Case of Neutron Diffraction in Nonmagnetic Crystals in a Magnetic Field4.6 Neutron Spin Precession and Spin Dichroism in Nonmagnetic Nonpolarized Crystals; 4.7 Mirror Reflection Under Diffraction Conditions (Grazing Incidence X-ray Diffraction); 5. Diffraction of neutrons and -quanta in crystals exposed to variable external fields; 5.1 Maxwell Equations and Dielectric Permittivity of Crystals Exposed to a Variable External Field; 5.2 Diffraction of -Quanta in Crystals in a Variable External Field under Resonance Scattering by Nuclei; 5.3 On Refraction in Crystals at a g0.
- 5.4 Scattering of a Monochromatic Plane Wave by a Plate of Matter Exposed to an Ultrasonic Wave5.5 Coherent Acceleration and Polarization of Neutron in Magnetically-Ordered Crystals Illuminated by a Light Wave; 5.6 Nuclear Reactions in a Light Wave; 5.7 Optical Anisotropy of Matter in the Rotating Coordinate System; 5.8 On Emission of Neutrons (?-Quanta) by Nuclei from Crystals; 6. Positronium and muonium spin rotation and oscillations; 6.1 Spin Rotation of an Electron (Atomic) Beam in Magnetized Matter; 6.2 Exchange-Induced Shifts of Atomic Optical Lines in Polarized Gases.