PG07. Nuclear Techniques in Solid State Research |
Professor: Manfred Forker (CBPF e Helmholtz Institut, Bonn, Alemanha)
Ementa:
- Modes of nuclear decay and radiation emitted
- Basics of nuclear radiation detectors
- Basic information on nuclear magnetic dipole and electric quadrupole momentsÂ
- The theory of magnetic and electric hyperfine interactions
- The origin of magnetic hyperfine fields and electric field gradients
- Solid state techniques exploiting hyperfine interactions in solids:
- Mössbauer spectroscopy,
- Nuclear magnetic resonance,
- Nuclear orientation,
- Muon spin rotation,
- Perturbed angular correlations
- Other material science techniques using nuclear radiations and ion beams
- Positron annihilation
- Channelling
- Tracer techniques
- Particle scattering (α, p, d, n, He)
- Ion beam analysis
- Discussion of selected recent publications in this area
Material do Curso: 
- Chapter 1 Nuclear Phys
- Chapter 2 HFI
- Chapter 3 Mössbauer
- Chapter 4 PAC
- Chapter 5 µSR
- Chapter 6 e+e- annihilation
- Chapter 7 Tracer
- Chapter 8 Ion Beam analysis
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