Cold Neutron Sources: Practical Considerations and Modern Research

INTERNATIONAL ATOMIC ENERGY AGENCY

IAEA-TECDOC-2025

English IAEA-TECDOC-2025 | 978-92-0-139423-1

168 pages | 67 figures | € 22.00 | Date published: 2023

Download PDF (5.03 MB)

Get citation details

Description

Analysis of materials using neutron scattering usually requires thermal and cold neutrons rather than those at the higher energies typically liberated by nuclear reactions. Cold neutrons are particularly useful for studying materials characterised by large dimensions, such as polymers, biological materials, and magnetic materials with complex structures. This publication provides a practical overview of considerations when building a cold neutron source, including neutronics and heat removal, design considerations, materials choices and fabrication methods, safety, and licensing. It also describes some typical project management aspects and a path through the steps from installation, commissioning, benchmarking, into operation and eventual decommissioning. In addition, a section describing recent research and development themes including modern moderator materials, catalysts for para hydrogen production, geometrical optimization, scattering kernels, and recent developments in Monte Carlo codes for modelling and optimization is included. The publication has been written for use by all those involved in a project to build a cold neutron source. The publication also includes five annex articles describing experiences with cold sources at reactor- and accelerator-based neutron sources.

More Information on reusing IAEA copyright material.

Keywords

Cold Neutron Sources, CNS, Practical Considerations, Modern Research, Project Management, Nuclear Physics, Neutronics, Heat Removal, Design Considerations, Materials Choices, Fabrication Methods, Safety Analysis, Licensing, Installation, Commissioning, Benchmarking, Operation, Decommissioning, Development Themes, Modern Moderator Materials, Catalysts for Para Hydrogen Production, Geometrical Optimization, Scattering Kernels, Monte Carlo Codes, Modelling, Optimization of Performance, Accelerator-Based Neutron Sources, Heat Load, Thermohydraulics, Uncertainties, Manufacturing, Machining, Welding, Sampling, Testing, Interfacing Issues, Prototyping, Acceptance Testing, Reliability, Lifetime, Waste, Decommissioning Activities, Liquid Cold Moderators, Research Activities, Quality Assurance, Inspection Plan, Tritium Activity, Release of Drawings, Technical Documentation, Procurement, Remote Handling, Nuclear Safety, Radiation Safety, Hydrogen Safety, Pre-Operational Testing, Research Reactors, OPAL, Australia, ISIS Facility, UK, Heterogeneous Moderators, Transport Codes, Case Studies