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Quantum Simulations of Curved Spacetime (Analogue Gravity)

Quantiki

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⚡ Quantum Brief

Seoul National University’s Theory of Cold Atoms group, led by Prof. Uwe R. Fischer, is hiring a postdoc to advance quantum simulations of curved spacetime via analogue gravity, starting September 2026. The role demands proven expertise in analogue gravity, with a focus on trans-Planckian physics, Hawking radiation in sonic black holes, and quantum backreaction—critical for testing general relativity in lab settings. Key research areas include information scrambling, the Page curve of analogue black holes, and quasiparticle entanglement in curved spacetimes, bridging quantum mechanics and gravitational physics experimentally. Applications must showcase prior publications in analogue gravity, with topics extending to quantum metrology in curved spacetime and gravitational wave detection using ultracold quantum matter. The deadline is July 31, 2026, targeting specialists poised to push boundaries in simulating cosmic phenomena with cold-atom systems.

Quantum Simulations of Curved Spacetime (Analogue Gravity)

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Quantum Simulations of Curved Spacetime (Analogue Gravity) Application deadline: Friday, July 31, 2026Research group: Theory of cold atomsEmployer web page: https://physics.snu.ac.kr/fischer/Job type: PostDocIn the Theory of Cold Atoms group of Prof. Uwe R. Fischer at Seoul National University, a Postdoc position is open from September 2026 in the broader context of simulations of curved spacetime (aka analogue gravity). A sizeable track record and publications in analogue gravity research is required. Topics include, but are not limited to, implementations of analogues of trans-Planckian physics in cosmology and in the Hawking radiation of sonic black holes, the quantum backreaction problem in Hawking radiation, information scrambling , the Page curve of analogue black holes, quasiparticle entanglement measures in curved spacetimes, quantum metrology in curved spacetime, and gravitational wave detection in ultracold quantum matter. Log in or register to post comments

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Quantum Simulations of Curved Spacetime (Analogue Gravity)

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