Sensing chiral spin orders with entangled neutrons
ORAL
Abstract
We present a quantum entangled-probe scattering framework that extends van Hove's standard scattering theory, and apply it to directly unveil chiral spin orders. Previously, it has been shown that a neutron beam that possesses entanglement in its different degrees of freedom [1], for instance, trajectory, spin, and energy, can be employed to successfully distinguish entangled from un-entangled states in the case of spin dimer orders [2]. Here, we consider a similar entangled neutron beam to study both short-and long-range chiral spin orders. This study has implications in the study of complex quantum materials such as antiferromagnetic Mott insulators.
[1] Nat. Com. 11, 930 (2019)
[2] arXiv: 2008.04328
[1] Nat. Com. 11, 930 (2019)
[2] arXiv: 2008.04328
*The IU Quantum Science and Engineering Center is supported by the Office of the IU Bloomington Vice Provost for Research through its emerging Areas of Research program.
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Presenters
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Abu Ashik Md. Irfan
- Indiana Univ - Bloomington