Quantum optics meets topology: individual and collective phenomena
ORAL
Abstract
Recent experimental advances allow one to engineer topological models in bosonic systems like photonic crystals, coupled microwave resonators, or optical lattices experiments, among other platforms [1]. In parallel, experimental progress is also being made to couple quantum emitters to such platforms in order to obtain (or simulate) light-matter Hamiltonians [2-4] with topological photons. The emergent behaviour and applications of the marriage between toplogy and quantum optics remain, except few exceptions [5], mostly unexplored.
In this talk, I will discuss the emergence of unconventional quantum dynamics and interactions when quantum emitters are coupled to topological 1D waveguides [6] and 3D photonic Weyl environments [7].
References
[1] Rev. Mod. Phys. 91, 015006 (2019).
[2] Nature 508, 241–244 (2014), Nature Communications 5, 3808 (2014), Rev. Mod. Phys. 87, 347 (2015), Science 359, 666 (2018).
[3] Nature Physics 13 (1), 48-52 (2017), Nature Communications, 9, 3706 (2018).
[4] Nature 559, 589–592 (2018).
[5] Science 359, 666-668 (2018), arXiv: 2005.03802
[6] Science Advances 5, eaaw0297 (2019)
[7] arXiv:1903.07513
In this talk, I will discuss the emergence of unconventional quantum dynamics and interactions when quantum emitters are coupled to topological 1D waveguides [6] and 3D photonic Weyl environments [7].
References
[1] Rev. Mod. Phys. 91, 015006 (2019).
[2] Nature 508, 241–244 (2014), Nature Communications 5, 3808 (2014), Rev. Mod. Phys. 87, 347 (2015), Science 359, 666 (2018).
[3] Nature Physics 13 (1), 48-52 (2017), Nature Communications, 9, 3706 (2018).
[4] Nature 559, 589–592 (2018).
[5] Science 359, 666-668 (2018), arXiv: 2005.03802
[6] Science Advances 5, eaaw0297 (2019)
[7] arXiv:1903.07513
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Presenters
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Alejandro Gonzalez-Tudela
Instituto de Fisica Fundamental IFF-CSIC, CSIC - Madrid
Authors
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Alejandro Gonzalez-Tudela
Instituto de Fisica Fundamental IFF-CSIC, CSIC - Madrid