Diamond Thermal Neutron Detector
Find Similar History 18 Claim Ownership Request Data Change Add FavouriteTitle
CoPED ID
Status
Value
Start Date
End Date
Description
Thermal neutrons are by-products of generating energy in nuclear power stations and from naturally occurring and artificially created radioactive sources. They are used in industry and medicine as a means to probe materials, and to initiate controlled nuclear reactions that in the case of Boron Neutron Capture therapy can treat cancer effectively. Neutrons are used and occur in a wide range of scientific applications. Being able to accurately and efficiently measure the presence of neutrons allows us to use thermal neutrons in a beneficial way, and to work to minimise radiation created in facilities.
Helium 3 is the element that has the highest probability of interaction with thermal neutrons, but it is expensive and supplies of this material are limited. Alternatives to Helium-3 based neutron detectors are required for the nuclear industry, security, scientific and medical research. This proposal seeks to make a new type of non-Helium-3 thermal neutron detector by merging the capabilities of an interdisciplinary team of researchers at Queen Mary University of London with that of the UK company Micron Semiconductor Ltd.
| Queen Mary University of London | LEAD_ORG |
| National Nuclear Laboratory | COLLAB_ORG |
| Micron Semiconductor | COLLAB_ORG |
| Atomic Weapons Establishment | COLLAB_ORG |
| Micron Semiconductor (United Kingdom) | PP_ORG |
| Adrian Bevan | PI_PER |
| Theo Kreouzis | COI_PER |
| Ian Dawson | COI_PER |
| Peter Hobson | COI_PER |
Subjects by relevance
- Neutrons
- Nuclear power plants
- Nuclear energy
- Nuclear reactions
- Measurement
Extracted key phrases
- Helium-3 thermal neutron detector
- Diamond Thermal Neutron Detector
- Boron Neutron Capture therapy
- Nuclear power station
- Nuclear industry
- Nuclear reaction
- Scientific application
- Product
- Queen Mary University
- Radioactive source
- New type
- Wide range
- Beneficial way
- Material
- High probability