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二维量子纠缠范德华反铁磁体NiI中基于多铁性的磁激子

Multiferroic-Enabled Magnetic-Excitons in 2D Quantum-Entangled Van der Waals Antiferromagnet NiI.

作者信息

Son Suhan, Lee Youjin, Kim Jae Ha, Kim Beom Hyun, Kim Chaebin, Na Woongki, Ju Hwiin, Park Sudong, Nag Abhishek, Zhou Ke-Jin, Son Young-Woo, Kim Hyeongdo, Noh Woo-Suk, Park Jae-Hoon, Lee Jong Seok, Cheong Hyeonsik, Kim Jae Hoon, Park Je-Geun

机构信息

Center for Quantum Materials, Seoul National University, Seoul, 08826, Republic of Korea.

Department of Physics and Astronomy, Seoul National University, Seoul, 08826, Republic of Korea.

出版信息

Adv Mater. 2022 Mar;34(10):e2109144. doi: 10.1002/adma.202109144. Epub 2022 Jan 20.

DOI:10.1002/adma.202109144
PMID:34936713
Abstract

Matter-light interaction is at the center of diverse research fields from quantum optics to condensed matter physics, opening new fields like laser physics. A magnetic exciton is one such rare example found in magnetic insulators. However, it is relatively rare to observe that external variables control matter-light interaction. Here, it is reported that the broken inversion symmetry of multiferroicity can act as an external knob enabling magnetic excitons in the van der Waals antiferromagnet NiI . It is further discovered that this magnetic exciton arises from a transition between Zhang-Rice-triplet and Zhang-Rice-singlet fundamentally quantum-entangled states. This quantum entanglement produces an ultrasharp optical exciton peak at 1.384 eV with a 5 meV linewidth. The work demonstrates that NiI is 2D magnetically ordered with an intrinsically quantum-entangled ground state.

摘要

物质与光的相互作用是从量子光学到凝聚态物理等多个研究领域的核心,开辟了激光物理等新领域。磁激子就是在磁性绝缘体中发现的这样一个罕见例子。然而,观察到外部变量控制物质与光的相互作用相对较少。在此,有报道称多铁性中破缺的空间反演对称性可作为一个外部旋钮,使范德华反铁磁体NiI 中的磁激子得以实现。进一步发现,这种磁激子源于张 - 赖斯三重态和张 - 赖斯单重态这两个基本量子纠缠态之间的跃迁。这种量子纠缠在1.384电子伏特处产生了一个线宽为5毫电子伏特的超尖锐光学激子峰。这项工作表明,NiI 是二维磁有序的,具有本征量子纠缠基态。

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