Computer Techniques in Radiation Transport and Dosimetry

Introductory Lectures.- Lecture 1: Computer Methods in Radiation Protection as Viewed by a User.- Lecture 2: The Physics of Radiation Transport.- Low Energy Neutron and Gamma-Ray Programs and Their Applications.- Lecture 3: The Methods and Applications of Discrete Ordinates in Low Energy Neutron- Photon Transport (ANISN, DOT) Part I: Methods.- Lecture 4: The Methods and Applications of Monte Carlo in Low Energy (? 20 MeV) Neutron- Photon Transport (MORSE) Part Is Methods.- Lecture 5: The Methods and Applications of Discrete Ordinates in Low Energy Neutron-Photon Transport (ANISN, DOT) Part II: Applications.- Lecture 6: The Methods and Applications of Monte Carlo in Low Energy (? 20 MeV) Neutron-Photon Transport (MORSE) Part II: Applications.- Lecture 7: The European Shielding Information Service — ESIS.- Lecture 8: Cross Section Processing Codes and Data Bases (AMPX).- Lecture 9: Radiation Shielding Information Center and Biomedical Computing Technology Information Center.- Lecture 10: Approximate Methods in Reactor Shielding Calculations.- Electromagnetic Cascade Shower Programs and Their Applications.- Lecture 11: The Physics of Electromagnetic Cascade.- Lecture 12: Solution of the Electromagnetic Cascade Shower Problem by Analog Monte Carlo Methods — EGS.- Lecture 13: Some Examples for the Application of the Monte Carlo Code EGS.- Lecture 14: Calculation of the Average Properties of Electromagnetic Cascades at High Energies (AEGIS).- Lecture 15: Electron Dosimetry Using Monte Carlo Techniques.- Lecture 16: Application of EGS to Detector Design in High Energy Physics.- Lecture 17: Application of EGS and ETRAN to Problems in Medical Physics and Dosimetry.- Hadronic Cascade Programs and Their Applications.- Lecture 18: Introduction to Hadronic Cascades.- Lecture 19: Particle Production Models, Sampling High-Energy Multiparticle Events from Inclusive Single-Particle Distributions.- Lecture 20: The Intranuclear-Cascade-Evaporation Model.- Lecture 21: Calculation of the Average Properties of Hadronic Cascades at High Energies (CASIM).- Lecture 22: The FLUKA and KASPRO Hadronic Cascade Codes.- Lecture 23: The HETC Hadronic Cascade Code.- Unfolding Methods and Spectrum Analysis.- Lecture 24: Unfolding Techniques for Activation Detector Analysis.- Lecture 25: BremsStrahlung Spectrum Analysis by Activation Method (LYRA, DIBRE, REFUM).- Lecture 26: Application of Activation-Spectrum Analysis Method to Shielding (TAURUS, LYRA, DIBRE, SAND-II).- Lecture 27: Activation Detectors and Their Gamma Spectrum Analysis.- Invited Presentations from Students and Summary Lecture.- Monte Carlo Calculation of Exposure Rates in Dwelling Rooms.- Integral Equation for Radiation Transport — ASFIT.- Thermal Effects Induced by High Energy Protons in Target and Absorber Materials.- Summary Lecture.- Participants.