Dr. Edoardo Di Napoli

Faculty
Advanced Simulation, Research Centre Jülich
Member
Associated Junior Research Group Leader, JARA HPC
Research
Computational Physics
Contact
Aachen Institute for Advanced Study in Computational Engineering Science (AICES)
RWTH Aachen University
Room 124/a
Schinkelstr. 2
52056 Aachen
Germany
Phone: +49(0)241 80 99 148
Fax: +49(0)241 80 628498
Email: dinapoli@aices.rwth-aachen.de
Web: http://www.ph.utexas.edu/~edodin/
Juelich Supercomputing Centre
Room 017
Institute for Advanced Simulation
Forschungszentrum Juelich GmbH
Wilhelm-Johnen Strasse
52425 Juelich, Germany
Phone: +49(0)2461 612527
Fax: +49(0)2461 616566
Email: e.di.napoli@fz-juelich.de
Education
- Ph.D. - Weinberg Theory Group, Department of Physics
The University of Texas at Austin, Texas, USA - August 2005
Dissertation: Quiver gauge theories, chiral rings and random matrix models
Advisor: Prof. Vadim Kaplunovsky - Laurea Degree - Department of Physics
I University of Rome "La Sapienza", Italy - March 1997
Thesis: The Nambu-Jona Lasinio mechanism and the dynamical breaking of the Electroweak symmetry in the Standard Model
Supervisor: Prof. Francesco Guerra
Professional Career
- since July 2011: Junior Research Group Leader at the AICES
- since May 2011: Research Associate at the Juelich Supercomputing Centre
- since April 2011: VolkswagenStiftung fellow "Computational Science"
- 2009-2010: Postdoctoral Associate at AICES
- 2007-2009: Director - Photovoltaic Initiative, INVENTIA Consulting
- 2005-2007: Postdoctoral Research Associate - Department of Physics, University of North Carolina at Chapel Hill.
- 2005: Visiting Scientist - Perimeter Institute, Waterloo, Ontario, Canada.
- 2002-2005: Research Assistant - Department of Physics, University of Texas at Austin.
- 1999-2002: Teaching Assistant - Department of Physics, University of Texas at Austin.
- 1998-1999: Professional consultant for IT services - FAO (United Nation Agency for Food and Agriculture) Headquarters.
Research Interests
Computational Physics:
Materials Science Simulations, Density Functional Theory, Block Iterative Eigensolvers, Numerical Tensor Algebra, Reverse Engineering applied to Simulations, High-Performance Computing. Research group website: High Performance and Automatic Computing
Theoretical Physics:
Quantum Field Theory, Theoretical Cosmology, Supersymmetry, Phenomenological aspects of the Standard Model
Publications
Click on the following link.