• Session 1: Fundamental particles and forces (1 lecture) [RTN]
A brief overview of standard model of particle physics, conservation laws, energy units)
• Session 2: Foundational concepts (1 lecture) [RTN]
Fundamental concepts of isotopes, isotones, isobars, radionuclides, chart of nuclides, nuclear decay, nuclear reactions, q-value, cross-section, luminosity, kinematics)
• Session 3: Charged particle interactions with matter (1 lecture) [RTN]
Radiation sources, stopping power, range, brehmsstrahlung,energy loss, Bragg curve
• Session 4: Charged particle interactions with matter (1 lecture) [RTN]
Radiation sources, photoelectric effect, Compton scattering, pair production, attenuation
• Session 5: Neutron Interactions with matter (1 lecture) [RTN]
• Session 6: Radiation Detectors and associated electronics (5 lectures) [PJ]
Introduction to different types of detectors: Photon detectors - scintillation detectors, photomultipliers, efficiencies; Semiconductor detectors for particle and photon detection - Si, Ge, efficiency timing, energy resolution.
- Electronics: analogue signal processing and pulse shaping; pre-amplification.
- Digital electronics for instrumentation: ADC, DAC, Flash ADC,
- Digitization of detectors signals: FPGA, DSP, Signal deconvolution)