Mr Miren Raj Radia

Career

2021-present: Research Software Engineer, DAMTP, University of Cambridge
2017-2021t: PhD Student, DAMTP, University of Cambridge
2016-2017: MMath Mathematical Tripos Part III, Emmanuel College, University of Cambridge
2013-2016: BA Mathematical Tripos, Emmanuel College, University of Cambridge

Research

Miren is a Research Software Engineer (RSE) in the Centre for Theoretical Cosmology in the Department of Applied Mathematics and Theoretical Physics. He is currently working on an ExCALIBUR project on In-situ visualization and unified programming across accelerator architectures at exascale. He is also one of the core developers and maintainers of the GRChombo numerical relativity code.

Previously, Miren was a PhD student in the same group working on numerical relativity and was supervised by Prof. Ulrich Sperhake.

Publications

Unequal-mass boson-star binaries: initial data and merger dynamics

T Evstafyeva, U Sperhake, T Helfer, R Croft, M Radia, B-X Ge, EA Lim

– Classical and Quantum Gravity

(2023)

40,

085009

(DOI: 10.1088/1361-6382/acc2a8)

The gravitational afterglow of boson stars

R Croft, T Helfer, BX Ge, M Radia, T Evstafyeva, EA Lim, U Sperhake, K Clough

– Classical and Quantum Gravity

(2023)

40,

065001

(DOI: 10.1088/1361-6382/acace4)

The critical layer in quadratic flow boundary layers over acoustic linings

MJ King, EJ Brambley, R Liupekevicius, M Radia, P Lafourcade, TH Shah

– Journal of Fluid Mechanics

(2022)

950,

(DOI: 10.1017/jfm.2022.753)

Lessons for adaptive mesh refinement in numerical relativity

M Radia, U Sperhake, A Drew, K Clough, P Figueras, EA Lim, JL Ripley, JC Aurrekoetxea, T França, T Helfer

– Classical and Quantum Gravity

(2022)

39,

135006

(DOI: 10.1088/1361-6382/ac6fa9)

Malaise and remedy of binary boson-star initial data

T Helfer, U Sperhake, R Croft, M Radia, B-X Ge, EA Lim

– Classical and Quantum Gravity

(2022)

39,

074001

(DOI: 10.1088/1361-6382/ac53b7)

The critical layer in quadratic flow boundary layers over acoustic linings

MJ King, EJ Brambley, R Liupekevicius, M Radia, P Lafourcade, TH Shah

– J. Fluid Mech.

(2021)

950,

GRChombo: An adaptable numerical relativity code for fundamental physics

T Andrade, LA Salo, JC Aurrekoetxea, J Bamber, K Clough, R Croft, ED Jong, A Drew, A Duran, PG Ferreira, P Figueras, H Finkel, T França, B-X Ge, C Gu, T Helfer, J Jäykkä, C Joana, M Kunesch, K Kornet, EA Lim, F Muia, Z Nazari, M Radia, J Ripley et al.

– Journal of Open Source Software, 6(68), 3703, 2021

(2021)

3703

(DOI: 10.21105/joss.03703)

Malaise and remedy of binary boson-star initial data

T Helfer, U Sperhake, R Croft, M Radia, B-X Ge, EA Lim

(2021)

(DOI: 10.1088/1361-6382/ac53b7)

Anomalies in the gravitational recoil of eccentric black-hole mergers with unequal mass ratios

M Radia, U Sperhake, E Berti, R Croft

– Physical Review D

(2021)

103,

104006

(DOI: 10.1103/physrevd.103.104006)

Black holes, gravitational waves and fundamental physics: A roadmap

L Barack, V Cardoso, S Nissanke, TP Sotiriou, A Askar, K Belczynski, G Bertone, E Bon, D Blas, R Brito, T Bulik, C Burrage, CT Byrnes, C Caprini, M Chernyakova, P Chrusciel, M Colpi, V Ferrari, D Gaggero, J Gair, J Garcia-Bellido, SF Hassan, L Heisenberg, M Hendry, IS Heng et al.

– Classical and Quantum Gravity

(2019)

Volume 36,

143001

(DOI: 10.1088/1361-6382/ab0587)

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