Theory of quantum systems

Theoretical aspects of analogue quantum simulation with cold atoms

Proceedings of the International School of Physics "Enrico Fermi" 198 (2018) 55-110

Abstract:

In these lectures, we discuss theoretical aspects of analogue quantum simulation, focussing on ultracold atoms in optical lattices as a specific example. We touch on the motivation for quantum simulation, before going into detail on the first-principles microscopic understanding of the system that allows us to use ultra-cold atoms as quantum simulators. This level of understanding and control crucially also exists for the dominant dissipative processes in experiments. We conclude by discussing the verification of quantum simulators, comparison with classical simulations, and the current role of many-body entanglement in this discussion.

Dynamics of many-body localization in the presence of particle loss

Quantum Science and Technology IOP Publishing 3:1 (2018) 01lt02

Authors:

EPL van Nieuwenburg, J Yago Malo, AJ Daley, MH Fischer

Lee-Yang zeros and large-deviation statistics of a molecular zipper

Physical Review E American Physical Society (APS) 97:1 (2018) 012115

Authors:

Aydin Deger, Kay Brandner, Christian Flindt

Probing dynamics in quantum magnetism with ultracold atoms

Optica Publishing Group (2018) jw4a.74

Authors:

Araceli Venegas-Gomez, Andrew J Daley, Wolfgang Ketterle

Efficient tomography of a quantum many-body system

Nature Physics Springer Nature 13:12 (2017) 1158-1162

Authors:

BP Lanyon, C Maier, M Holzäpfel, T Baumgratz, C Hempel, P Jurcevic, I Dhand, AS Buyskikh, AJ Daley, M Cramer, MB Plenio, R Blatt, CF Roos