Sumários
The interaction of particles with matter: Charged Particles
25 março 2022, 11:00 • Patrícia Serrano Gonçalves
- Total Energy Loss: collisional and radiative
- Radiative energy loss: Bremsstrahlung
- Critical energy
- Electromagnetic cascades
- Cherenkov radiation
- Multiple scattering
- Projected Range and CSDR Range
- The NIST data bases
The interaction of particles with matter: Charged Particles
22 março 2022, 09:30 • Patrícia Serrano Gonçalves
- Total Energy Loss: collisional and radiative
- Radiative energy loss: Bremsstrahlung
- Critical energy
- Electromagnetic cascades
- Cherenkov radiation
- Multiple scattering
- Projected Range and CSDR Range
- The NIST data bases
The interaction of particles with matter:Charged Particles
22 março 2022, 08:30 • Patrícia Serrano Gonçalves
TPC discussion (20 min)
The interaction of particles with matter:Charged Particles
- The different regimes for energy Loss as a function of beta*gamma
- Energy Loss in mixtures and compounds
- Range
- The Bragg Peak
The interaction of particles with matter:Charged Particles
18 março 2022, 13:00 • Patrícia Serrano Gonçalves
TPC discussion (20 min)
The interaction of particles with matter:Charged Particles
- The different regimes for energy Loss as a function of beta*gamma
- Energy Loss in mixtures and compounds
- Range
- The Bragg Peak
The interaction of particles with matter: Charged Particles
18 março 2022, 11:00 • Patrícia Serrano Gonçalves
- Collisional Stopping power
- The 1913 Bohr Semi-classic formula.
- The 1934 Bethe formula.
- The Bethe-Bloch formula:• Mean excitation energy;
- Corrections to the Bethe formula: density effect correction, shell correction, Barkas correction and Bloch term
Bibliography:
- J. E. Turner, Atoms, Radiation, and Radiation Protection, chapter 5
- PDG, Passage of particles through matter (https://pdg.lbl.gov/2020/reviews/rpp2020-rev-passage-particles-matter.pdf)https://pdg.lbl.gov/2020/reviews/rpp2020-rev-passage-particles-matter.pdf)