James Kermode
Current position: Research Associate, University of Cambridge
Address: TCM Group, Cavendish Laboratory, JJ Thomson Avenue, Cambridge CB3 0HE
Phone: +44(0)1223 347049
Email: <jrk33 AT cam DOT ac DOT uk>
Web: http://www.tcm.phy.cam.ac.uk/~jrk33
Nationality: British
Date of Birth: 19 February 1982
Education
2004-2007 Ph.D. in Physics (Computational Condensed Matter)
Pembroke College, University of Cambridge
Supervised by Prof. M.C. Payne and Dr Gábor Csányi. Thesis title Hybrid Simulation of Brittle Fracture. Ph.D. degree conferred March 2008. Nahum Scholarship in Physics from Pembroke College.2000-2004 M.A., M. Sci. (Hons.) Natural Sciences
Pembroke College, University of Cambridge- Part IA: Computer Science, Mathematics and Physics (1st)
- Part IB: Advanced Physics and Mathematics (1st)
- Part II: Experimental and Theoretical Physics (1st)
Part III: Experimental and Theoretical Physics (1st)
College Prizes and Scholarships, Pembroke College, 2001-2004
Foundation Scholarship, Pembroke College, 2002 2004.
1998-2000 Brockenhurst College, Brockenhurst A Levels in Mathematics (A), Further Mathematics (A), Physics (A), Chemistry (A) and General Studies (A); S Level in Physics (distinction).
Research
Dec 2007 - present Research Associate, University of Cambridge. Collaborating with Prof. M.C. Payne at the Cavendish Laboratory and Dr Gábor Csányi at the Engineering Labroratory on the application of multiscale quantum mechanical/classical simulation techniques to the brittle fracture of ceramic materials.
Teaching
2004-2007 Supervisor of first year Physics undergraduates, Pembroke College (taught students in small groups; exam preparation; set and marked work; acted as their mentor over the year) Demonstrator of third year undergraduate Computational Physics course, Cavendish Laboratory
Publications
G. Csányi, G. Moras, J. R. Kermode, M. C. Payne, A. Mainwood and A. de Vita, Multiscale Modeling of Defects in Semiconductors: A Novel Molecular Dynamics Scheme. In D. A. Drabold and S. K. Estreicher, editors, Theory of Defects in Semiconductors (Springer, 2007) DOI 10.1007/11690320
G. Csányi, S. Winfield, J. R. Kermode, A. Comisso, A. de Vita, N. Bernstein and M. C. Payne, Expressive Programming for Computational Physics in Fortran 95+, IoP Comput. Phys. Newsletter, Spring 2007 PDF
- J. R. Kermode, T. Albaret, D. Sherman, N. Bernstein, P. Gumbsch, M. C. Payne, G. Csányi and A. de Vita, Low speed fracture instabilities in a brittle crystal, Submitted.
Selected Talks
Sept 2007 CCP2007, Conference on Computational Physics, Universite Libre de Brux-elles. Low Speed Instabilities in the Brittle Fracture of Silicon (Book of Abstracts, p. 76)
July 2006 CECAM workshop: Hybrid Atomistic Methods for Materials and Biological Systems, Lyon. Multiscale Hybrid Simulations of Brittle Fracture (Abstract)
Interests and Activities
2007-present Organiser, Journal Club, TCM Group, Cavendish Laboratory
2002-present Committee member of Cambridge Hands on Science (CHaOS) a student-run society which organises events to increase public enthusiasm for science.
2001-2007 Member of Cambridge University Ultimate Frisbee team Strange Blue representing the university at national tournaments; Treasurer of univer-sity club 2003 4 and captain of Pembroke College team 2001-6.
Skills
Languages French (intermediate); German (basic).
Computing Extensive use of Unix/Linux. Advanced knowledge of Fortran 95, Python, bash, awk and Unix system administation. Intermediate knowledge of C/C++ and Perl.
My CV is also available in PDF format.