Abstract:
Current quantum devises are faulty and one needs to be able to assess the errors which occur during quantum information processing. In the first part of this talk, I will discuss several methods which can be used to test quantum computations and quantum simulations. Then, I will use a quantum information theoretical approach to address the problem of indistinguishability of identical particles.
J. Carrasco, M. Langer, A. Neven, BK, Physical Review Research (2024)
T. Olsacher, T. Kraft, CH. Kokail, B.K., P. Zoller, arXiv:2405.06768
M. Englbrecht, T. Kraft, Ch. Dittel, A. Buchleitner, G. Giedke, BK,
Phys. Rev. Lett. 132, 050201 (2024)
Short bio:
- 2023–today Full Professor, Technical University of Munich, Germany (endowed by BMW)
- 8/2021–12/2022 Head of the Institute for Theoretical Physics, University of Innsbruck
- 2020–2022 Full Professor, University of Innsbruck
- 2013–2020 Associate Professor, University of Innsbruck
- 2010–2013 Assistant Professor, University of Innsbruck
- 2006–2010 Senior Postdoctoral researcher, University of Innsbruck
- 2004–2006 Postdoctoral researcher, Group of Applied Physics, University of Geneva (CH)
- 2003 Postdoctoral researcher, Max-Planck-Institute for Quantum Optics, Garching (D)
- Oct. 2003 Diploma in Mathematics (with distinction), University of Innsbruck
- Feb. 2003 PhD in Physics (with distinction), University of Innsbruck
