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Welcome to Repository@Nottingham

The Repository@Nottingham is intended to be an Open Access showcase for the published research output of the university. Whenever possible, refereed documents accepted for publication, or finished artistic compositions presented in public, will be made available here in full digital format, and hyperlinks to standard published versions will be provided. See our Policies for further information.



Latest Additions

ROBIN: A unified nanopore-based assay integrating intraoperative methylome classification and nextday comprehensive profiling for ultra-rapid tumour diagnosis (2025)
Journal Article
Deacon, S., Cahyani, I., Holmes, N., Fox, G., Munro, R., Wibowo, S., Murray, T., Mason, H., Housley, M., Martin, D., Sharif, A., Patel, A., Goldspring, R., Brandner, S., Sahm, F., Smith, S., Paine, S., & Loose, M. (in press). ROBIN: A unified nanopore-based assay integrating intraoperative methylome classification and nextday comprehensive profiling for ultra-rapid tumour diagnosis. Neuro-Oncology,

Heat pumps' impact on the requirement for grid-scale energy storage in the UK (2025)
Journal Article
Cárdenas, B., Garvey, S., Baniamerian, Z., & Mehdipour, R. (in press). Heat pumps' impact on the requirement for grid-scale energy storage in the UK. Renewable Energy,

This paper explores the potential effect that the widespread utilisation of heat pumps in the UK could have on a future 100% renewable-based electricity grid and the requirement for energy storage capacity. The study considers different penetrations... Read More about Heat pumps' impact on the requirement for grid-scale energy storage in the UK.

Constraining accretion physics with gravitational waves from eccentric extreme-mass-ratio inspirals (2025)
Journal Article
Duque, F., Kejriwal, S., Sberna, L., Speri, L., & Gair, J. (in press). Constraining accretion physics with gravitational waves from eccentric extreme-mass-ratio inspirals. Physical Review D, 111(8), Article 084006. https://doi.org/10.1103/physrevd.111.084006

We study the evolution of eccentric, equatorial extreme-mass-ratio inspirals (EMRIs) immersed in the accretion disks of active galactic nuclei. We find that single gravitational-wave observations from these systems could provide measurements with ∼1... Read More about Constraining accretion physics with gravitational waves from eccentric extreme-mass-ratio inspirals.