Related papers: Quantum-limited generalized measurement for tunnel-coupled condensates

Quantum-limited generalized measurement for tunnel-coupled condensates

URL: http://arxiv.org/abs/2408.07002v1
Date: Tue, 13 Aug 2024 16:06:59 GMT
Title: Quantum-limited generalized measurement for tunnel-coupled condensates
Authors: Maximilian Prüfer, Yuri Minoguchi, Tiantian Zhang, Yevhenii Kuriatnikov, Venkat Marupaka, Jörg Schmiedmayer,
Abstract summary: We implement a generalized measurement scheme based on controlled outcoupling of atoms. This gives us simultaneous access to number imbalance and relative phase in a system of two tunnel-coupled 1D Bose gases.
Score: 0.4335300149154109
License: http://creativecommons.org/licenses/by/4.0/
Abstract: The efficient readout of the relevant information is pivotal for quantum simulation experiments. Often only single observables are accessed by performing standard projective measurements. In this work, we implement a generalized measurement scheme based on controlled outcoupling of atoms. This gives us simultaneous access to number imbalance and relative phase in a system of two tunnel-coupled 1D Bose gases, which realize a quantum simulator of the sine-Gordon field theory. We demonstrate that our measurement is quantum limited by accessing number squeezing and show that we can track Josephson oscillation dynamics with the generalized measurements. Finally, we show that the scheme allows the extraction of atoms while maintaining the system's coherent dynamics, which opens up the door to accessing multi-time correlation functions. Our scheme constitutes a step towards accessing quantum properties of the sine-Gordon field theory and, in the future, studying spatially extended systems under continuous monitoring.

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