Probing Spatial Spin Correlations of Ultracold Gases by Quantum Noise Spectroscopy

Bruun, G.; Andersen, Brian; Demler, Eugene A.; Sørensen, Anders

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Author

Bruun, G.

Andersen, Brian

Demler, Eugene A. HARVARD

0000-0002-2499-632X

Sørensen, Anders

Published Version

https://doi.org/10.1103/PhysRevLett.102.030401

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Citation

Bruun, G., Andersen, Brian, Demler, Eugene, and Anders Sørensen. 2009. Probing spatial spin correlations of ultracold gases by quantum noise spectroscopy. Physical Review Letters 102: 030401.

Abstract

Spin noise spectroscopy with a single laser beam is demonstrated theoretically to provide a direct probe of the spatial correlations of cold fermionic gases. We show how the generic many-body phenomena of anti-bunching, pairing, antiferromagnetic, and algebraic spin liquid correlations can be revealed by measuring the spin noise as a function of laser width, temperature, and frequency.

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