A single photonic cavity with two independent physical synthetic dimensions

The concept of synthetic dimensions has generated interest in many branches of science, ranging from ultracold atomic physics to photonics, as it provides a versatile platform for realizing effective gauge potentials and topological physics. Previous experiments have augmented the real-space dimensi...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2020-01, Vol.367 (6473), p.59-64
Hauptverfasser: Dutt, Avik, Lin, Qian, Yuan, Luqi, Minkov, Momchil, Xiao, Meng, Fan, Shanhui
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Sprache:eng
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Zusammenfassung:The concept of synthetic dimensions has generated interest in many branches of science, ranging from ultracold atomic physics to photonics, as it provides a versatile platform for realizing effective gauge potentials and topological physics. Previous experiments have augmented the real-space dimensionality by one additional physical synthetic dimension. In this study, we endow a single ring resonator with two independent physical synthetic dimensions. Our system consists of a temporally modulated ring resonator with spatial coupling between the clockwise and counterclockwise modes, creating a synthetic Hall ladder along the frequency and pseudospin degrees of freedom for photons propagating in the ring. We observe a wide variety of physics, including effective spin-orbit coupling, magnetic fields, spin-momentum locking, a Meissner-to-vortex phase transition, and signatures of topological chiral one-way edge currents, completely in synthetic dimensions. Our experiments demonstrate that higher-dimensional physics can be studied in simple systems by leveraging the concept of multiple simultaneous synthetic dimensions.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aaz3071