Entanglement of single-photons and chiral phonons in atomically thin WSe2
Quantum entanglement is a fundamental phenomenon that, on the one hand, reveals deep connections between quantum mechanics, gravity and spacetime 1,2 , and on the other hand, has practical applications as a key resource in quantum information processing 3 . Although it is routinely achieved in photo...
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sg-ntu-dr.10356-1450182023-02-28T19:48:57Z Entanglement of single-photons and chiral phonons in atomically thin WSe2 Chen, Xiaotong Lu, Xin Dubey, Sudipta Yao, Qiang Liu, Sheng Wang, Xingzhi Xiong, Qihua Zhang, Lifa Srivastava, Ajit School of Electrical and Electronic Engineering School of Physical and Mathematical Sciences Nanoelectronics Centre of Excellence Science::Physics Quantum Dots Two-dimensional Materials Quantum entanglement is a fundamental phenomenon that, on the one hand, reveals deep connections between quantum mechanics, gravity and spacetime 1,2 , and on the other hand, has practical applications as a key resource in quantum information processing 3 . Although it is routinely achieved in photon–atom ensembles 4 , entanglement involving solid-state 5–7 or macroscopic objects 8 remains challenging albeit promising for both fundamental physics and technological applications. Here, we report entanglement between collective, chiral vibrations in a two-dimensional WSe 2 host—chiral phonons (CPs)—and single-photons emitted from quantum dots 9–13 (QDs) present in it. CPs that carry angular momentum were recently observed in WSe 2 and are a distinguishing feature of the underlying honeycomb lattice 14,15 . The entanglement results from a ‘which-way’ scattering process, involving an optical excitation in a QD and doubly-degenerate CPs, which takes place via two indistinguishable paths. Our unveiling of entanglement involving a macroscopic, collective excitation together with strong interactions between CPs and QDs in two-dimensional materials opens up ways for phonon-driven entanglement of QDs and engineering chiral or non-reciprocal interactions at the single-photon level. Ministry of Education (MOE) National Research Foundation (NRF) Accepted version We acknowledge many enlightening discussions with A. Imamoğlu, W. Gao and M. Kroner. We also acknowledge technical help from T. Neal and E. Liu. A.S. acknowledges support from Emory University startup funds and the National Science LettersNATure PHySiCSFoundation through the EFRI Program grant number EFMA-1741691. L.Z. thanks M. Gao for helpful calculations and discussions, and acknowledges support from the National Natural Science Foundation of China (grant No. 11574154). Q.X. gratefully acknowledges strong support from the Singapore National Research Foundation via an NRF-ANR joint grant (NRF2017-NRF-ANR002 2D-Chiral) and the Singapore Ministry of Education via an AcRF Tier2 grant (MOE2017-T2-1-040) and Tier1 grants (RG 113/16 and RG 194/17) 2020-12-08T08:39:29Z 2020-12-08T08:39:29Z 2018 Journal Article Chen, X., Lu, X., Dubey, S., Yao, Q., Liu, S., Wang, X., . . . Srivastava, A. (2019). Entanglement of single-photons and chiral phonons in atomically thin WSe2. Nature Physics, 15(3), 221-227. doi:10.1038/s41567-018-0366-7 1745-2473 https://hdl.handle.net/10356/145018 10.1038/s41567-018-0366-7 2-s2.0-85058147470 3 15 221 227 en Nature Physics © 2018 The Author(s), under exclusive licence to Springer Nature Limited. All rights reserved. This paper was published in Nature Physics and is made available with permission of The Author(s), under exclusive licence to Springer Nature Limited. application/pdf |
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Science::Physics Quantum Dots Two-dimensional Materials Chen, Xiaotong Lu, Xin Dubey, Sudipta Yao, Qiang Liu, Sheng Wang, Xingzhi Xiong, Qihua Zhang, Lifa Srivastava, Ajit Entanglement of single-photons and chiral phonons in atomically thin WSe2 |
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Quantum entanglement is a fundamental phenomenon that, on the one hand, reveals deep connections between quantum mechanics, gravity and spacetime 1,2 , and on the other hand, has practical applications as a key resource in quantum information processing 3 . Although it is routinely achieved in photon–atom ensembles 4 , entanglement involving solid-state 5–7 or macroscopic objects 8 remains challenging albeit promising for both fundamental physics and technological applications. Here, we report entanglement between collective, chiral vibrations in a two-dimensional WSe 2 host—chiral phonons (CPs)—and single-photons emitted from quantum dots 9–13 (QDs) present in it. CPs that carry angular momentum were recently observed in WSe 2 and are a distinguishing feature of the underlying honeycomb lattice 14,15 . The entanglement results from a ‘which-way’ scattering process, involving an optical excitation in a QD and doubly-degenerate CPs, which takes place via two indistinguishable paths. Our unveiling of entanglement involving a macroscopic, collective excitation together with strong interactions between CPs and QDs in two-dimensional materials opens up ways for phonon-driven entanglement of QDs and engineering chiral or non-reciprocal interactions at the single-photon level. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Chen, Xiaotong Lu, Xin Dubey, Sudipta Yao, Qiang Liu, Sheng Wang, Xingzhi Xiong, Qihua Zhang, Lifa Srivastava, Ajit |
| format |
Article |
| author |
Chen, Xiaotong Lu, Xin Dubey, Sudipta Yao, Qiang Liu, Sheng Wang, Xingzhi Xiong, Qihua Zhang, Lifa Srivastava, Ajit |
| author_sort |
Chen, Xiaotong |
| title |
Entanglement of single-photons and chiral phonons in atomically thin WSe2 |
| title_short |
Entanglement of single-photons and chiral phonons in atomically thin WSe2 |
| title_full |
Entanglement of single-photons and chiral phonons in atomically thin WSe2 |
| title_fullStr |
Entanglement of single-photons and chiral phonons in atomically thin WSe2 |
| title_full_unstemmed |
Entanglement of single-photons and chiral phonons in atomically thin WSe2 |
| title_sort |
entanglement of single-photons and chiral phonons in atomically thin wse2 |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/145018 |
| _version_ |
1759856011014832128 |