Linked e-resources
Details
Table of Contents
Introduction
Acknowledgements
Part 1 Fundamental Studies
Microtheory of Scintillation in Crystalline Materials
Fast Optical Phenomena in Self-activated and Ce-doped Materials Prospective for Fast Timing in Radiation Detectors
Part 2 Material Science
Crystal Clear Collaboration: 30 Years on the Development of the Scintillation Materials
Nano-crystalline and Nano-composite Scintillators for Fast Timing
Mixed Crystals
a Tool to Improve Scintillators Performance. Current Stats and Prospects
Part 3 Technology and Production
Raw Materials for Novel Complex Oxide Scintillators Development and Production
Growth of Garnet and Perovskite Scintillator Crystals with Non-isovalent Minor Components and Related Effects
Restart of PWO Production for HEP
Engineering of YAG-based Scintillators
Scintillation Crystals Growth Methods for Laboratory Research and Industrial Production
Optical and Scintillation Properties of Ce-doped Glasses Obtained in the MO-SiO2 (M=Ca, Ba) System.-Composte Scintillation Elements
Increasing the Radiation Resistance Threshold of the Plastic and Composite Scintillators
Nanostructured Organosiliconluminophores as Effective and Fast Spectral Shifters in a Wide Spectral Region
Part 4 Advanced Radiation Detectors and Detecting Systems
Scintillation Detectors in Experiments on High Energy Physics
Novel Designs of the Detecting Modules for High Luminosity LHC and FCC
Energy Losses and Calorimetry with Oriented Crystals
Scintillating Spectrometer for Long-term Study of theSsea Level Gamma-ray Background Variations Caused by Changes of Concentration of Radioactive Isotopes and Particle Acceleration During Thunderstorms
Radiation Hard Electronics for Hadron Collider Experiments. LHC Experience and Projects for HL LHC
Part 5 Instrumentation and Applications
Demand for a New Instrumentation for Well Logging
Portal Monitoring Devices
New Developments of Radiation Monitoring Equipment on the Basis of Scintillation Detectors
Glossary
Index.
Acknowledgements
Part 1 Fundamental Studies
Microtheory of Scintillation in Crystalline Materials
Fast Optical Phenomena in Self-activated and Ce-doped Materials Prospective for Fast Timing in Radiation Detectors
Part 2 Material Science
Crystal Clear Collaboration: 30 Years on the Development of the Scintillation Materials
Nano-crystalline and Nano-composite Scintillators for Fast Timing
Mixed Crystals
a Tool to Improve Scintillators Performance. Current Stats and Prospects
Part 3 Technology and Production
Raw Materials for Novel Complex Oxide Scintillators Development and Production
Growth of Garnet and Perovskite Scintillator Crystals with Non-isovalent Minor Components and Related Effects
Restart of PWO Production for HEP
Engineering of YAG-based Scintillators
Scintillation Crystals Growth Methods for Laboratory Research and Industrial Production
Optical and Scintillation Properties of Ce-doped Glasses Obtained in the MO-SiO2 (M=Ca, Ba) System.-Composte Scintillation Elements
Increasing the Radiation Resistance Threshold of the Plastic and Composite Scintillators
Nanostructured Organosiliconluminophores as Effective and Fast Spectral Shifters in a Wide Spectral Region
Part 4 Advanced Radiation Detectors and Detecting Systems
Scintillation Detectors in Experiments on High Energy Physics
Novel Designs of the Detecting Modules for High Luminosity LHC and FCC
Energy Losses and Calorimetry with Oriented Crystals
Scintillating Spectrometer for Long-term Study of theSsea Level Gamma-ray Background Variations Caused by Changes of Concentration of Radioactive Isotopes and Particle Acceleration During Thunderstorms
Radiation Hard Electronics for Hadron Collider Experiments. LHC Experience and Projects for HL LHC
Part 5 Instrumentation and Applications
Demand for a New Instrumentation for Well Logging
Portal Monitoring Devices
New Developments of Radiation Monitoring Equipment on the Basis of Scintillation Detectors
Glossary
Index.