Sarandis Marinakis and co-workers presented the first joint experimental and theoretical study of differential cross-sections for inelastic scattering of fully state-specified OH with He and Ar using velocity-map imaging in a crossed-molecular-beam arrangement. Hydroxyl radicals (OH) are important in many chemical systems, including combustion and atmospheric reactions, however experimentally measuring their velocities in specific internal quantum states has proved difficult. The OSC supported this work through the implementation of Hibridon, software for Molecular Inelastic Scattering and Photodissociation on its systems.
Providing on-demand High Performance Computing for all Oxford University researchers
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Oxford Supercomputing Centre offers:
- Access to state of the art High Performance Computers
- Assistance & advice on scientific computing from application to programming support
- Training courses for both new and more experience users
- A range of application and software licences ready to use
- A quick turnaround of technical issues or problems
- Support to a current portfolio of over £52M of research projects at Oxford University
Why use high performance computing?
HPC is a proven transforming and game-changing technology across all disciplines. Our case studies illustrate some of the ground breaking research enabled by the OSC. Read more
Planning a project or funding application?
Talk to us about your computational requirements; get advice on costing for research proposals and technical support. Read more
Get started using our facilities
All the information you need to become a registered OSC user and start running jobs on our systems with links to training, documentation and support. Read more