Welcome to our group website
We are working in quantum technologies with a focus in implementations of quantum computation and quantum simulation with quantum optical systems. Our research could be applied towards developing exotic high-performance quantum processors and simulators, and also for fundamental science in the area of strongly correlated quantum systems. read more.
Nov 2017: Our paper “Realizing topological relativistic dynamics with slow light polaritons at room temperature” is in out in arXiv,
see here .
Sep 2017: Wing Chi joining our group as a postdoc welcome!
Research Highlights
March 2020: Quantum supremacy in driven quantum many-body systems
Quantum supremacy in driven quantum many-body systems J. Tangpanitanon, S. Thanasilp, M. A. Lemonde, N. Dangniam, D. G. Angelakis arxiv.org/2002.11946 …
July 2019: Quantum state transfer via acoustic edge states in a 2D optomechanical array
Marc-Antoine Lemonde, Vittorio Peano, Peter Rabl, Dimitris G. Angelakis New J. Phys. 21 (11), 113030 (2020) [PDF] We propose a novel …
June 2019: Quantum supremacy with analog quantum processors for material science and machine learning
Quantum supremacy with analog quantum processors for material science and machine learning J. Tangpanitanon, S. Thanasilp, M. A. Lemonde, D …
April 2019: Hidden order in quantum many-body dynamics of driven-dissipative nonlinear photonic lattices
Hidden Order in Quantum Many-body Dynamics of Driven-Dissipative Nonlinear Photonic Lattices J. Tangpanitanon, S. R. Clark, V. M. Bastidas, R …
March 2019: Two new works out! One on detecting topological order in quantum many-body systems in Phys. Rev. B and one in probing many-body localization in open photonic systems published in Phys. Rev. A
Strongly correlated photon transport in a nonlinear photonic lattice with the disorder: Probing signatures of the localization transition T. F …
September 2018 “Discrete time crystal in globally driven interacting quantum systems without disorder” (March 2019, published!)
Fig.1 (a) Schematic diagram showing the dynamics of the individual spins in our model for a small perturbation in …
