UK (HL-LHC-UK)

Lead Research Organisation: University of Huddersfield
Department Name: Physics

Abstract

See Case of Support

Planned Impact

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Publications

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Rafique Haroon (2016) MERLIN for LHC Collimation

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Williamson J (2020) Flexible gauge length intrinsic fiber-optic strain sensor using broadband interferometry [Invited]. in Journal of the Optical Society of America. A, Optics, image science, and vision

 
Title MERLIN 
Description Development of the MERLIN code for the simulation of LHC collimators 
Type Of Material Improvements to research infrastructure 
Year Produced 2016 
Provided To Others? Yes  
Impact Change of the LHC collimation system to use the halo electron lens technique 
 
Description RADiATE collaboration 
Organisation Brookhaven National Laboratory
Country United States 
Sector Public 
PI Contribution The project has directly resulted in the creation of a collaboration to study the effects of radiation damage on materials for accelerators and for nuclear reactors. This has already made detailed studies of radiation damage to graphite and beryllium.
Collaborator Contribution See above.
Impact The collaboration is still active. It is multi-disciplinary, involving physicists, engineers and material scientists.
Start Year 2012
 
Description RADiATE collaboration 
Organisation Fermilab - Fermi National Accelerator Laboratory
Country United States 
Sector Public 
PI Contribution The project has directly resulted in the creation of a collaboration to study the effects of radiation damage on materials for accelerators and for nuclear reactors. This has already made detailed studies of radiation damage to graphite and beryllium.
Collaborator Contribution See above.
Impact The collaboration is still active. It is multi-disciplinary, involving physicists, engineers and material scientists.
Start Year 2012
 
Description RADiATE collaboration 
Organisation U.S. Department of Energy
Department Pacific Northwest National Laboratory
Country United States 
Sector Public 
PI Contribution The project has directly resulted in the creation of a collaboration to study the effects of radiation damage on materials for accelerators and for nuclear reactors. This has already made detailed studies of radiation damage to graphite and beryllium.
Collaborator Contribution See above.
Impact The collaboration is still active. It is multi-disciplinary, involving physicists, engineers and material scientists.
Start Year 2012
 
Description RADiATE collaboration 
Organisation University of Oxford
Department Department of Materials
Country United Kingdom 
Sector Academic/University 
PI Contribution The project has directly resulted in the creation of a collaboration to study the effects of radiation damage on materials for accelerators and for nuclear reactors. This has already made detailed studies of radiation damage to graphite and beryllium.
Collaborator Contribution See above.
Impact The collaboration is still active. It is multi-disciplinary, involving physicists, engineers and material scientists.
Start Year 2012