Quantum spin squeezing

Quantum spin squeezing

This paper reviews quantum spin squeezing, which characterizes the sensitivity of a state with respect to SU(2) rotations, and is significant for both entanglement detection and high-precision metrology. We first present various definitions of spin squeezing parameters, explain their origin and prop...

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Bibliographic Details
Published in:Physics reports Vol. 509; no. 2; pp. 89 - 165
Main Authors: Ma, Jian, Wang, Xiaoguang, Sun, C.P., Nori, Franco
Format: Journal Article
Language:English
Published: Kidlington Elsevier B.V 01-12-2011
Elsevier
Subjects:
Exact sciences and technology
Physics
Quantum entanglement
Quantum phase transition
Squeezed states
Particle collision
Fisher information
Squeezing
SU theory
Quantum chaos
Correlations
Hamiltonians
Quantum information
Spin state
Bose-Einstein condensation
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Summary:This paper reviews quantum spin squeezing, which characterizes the sensitivity of a state with respect to SU(2) rotations, and is significant for both entanglement detection and high-precision metrology. We first present various definitions of spin squeezing parameters, explain their origin and properties for typical states, and then discuss spin-squeezed states produced with nonlinear twisting Hamiltonians. Afterward, we explain pairwise correlations and entanglement in spin-squeezed states, as well as the relations between spin squeezing and quantum Fisher information, where the latter plays a central role in quantum metrology. We also review the applications of spin squeezing for detecting quantum chaos and quantum phase transitions, as well as the influence of decoherence on spin squeezing. Finally, we review several experimental realizations of spin squeezing, as well as their corresponding theoretical backgrounds, including: producing spin-squeezed states via particle collisions in Bose–Einstein condensates, transferring photon squeezing to atomic ensembles, and generating spin squeezing via quantum non-demolition measurements.
ISSN:0370-1573
1873-6270
DOI:10.1016/j.physrep.2011.08.003