Related papers: Quantifying and controlling entanglement in the quantum magnet Cs$_2$CoCl$

Quantifying and controlling entanglement in the quantum magnet Cs$_2$CoCl$_4$

URL: http://arxiv.org/abs/2010.11164v2
Date: Thu, 20 May 2021 16:42:45 GMT
Title: Quantifying and controlling entanglement in the quantum magnet Cs$_2$CoCl$_4$
Authors: Pontus Laurell, Allen Scheie, Chiron J. Mukherjee, Michael M. Koza, Mechtild Enderle, Zbigniew Tylczynski, Satoshi Okamoto, Radu Coldea, D. Alan Tennant, Gonzalo Alvarez
Abstract summary: We implement a model-independent measurement protocol for entanglement based on three entanglement witnesses: one-tangle, two-tangle, and quantum Fisher information (QFI) We perform high-resolution measurements on Cs$$ClCo$_4$, a close realization of the $S=1/2$ transverse-field XXZ spin chain. Our results lay the foundation for a general entanglement detection protocol for quantum spin systems.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The lack of methods to experimentally detect and quantify entanglement in quantum matter impedes our ability to identify materials hosting highly entangled phases, such as quantum spin liquids. We thus investigate the feasibility of using inelastic neutron scattering (INS) to implement a model-independent measurement protocol for entanglement based on three entanglement witnesses: one-tangle, two-tangle, and quantum Fisher information (QFI). We perform high-resolution INS measurements on Cs$_2$CoCl$_4$, a close realization of the $S=1/2$ transverse-field XXZ spin chain, where we can control entanglement using the magnetic field, and compare with density-matrix renormalization group calculations for validation. The three witnesses allow us to infer entanglement properties and make deductions about the quantum state in the material. We find QFI to be a particularly robust experimental probe of entanglement, whereas the one- and two-tangles require more careful analysis. Our results lay the foundation for a general entanglement detection protocol for quantum spin systems.

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