各向异性
等离子体子
纳米光子学
凝聚态物理
手性(物理)
物理
各向同性
圆二色性
极化(电化学)
堆积
圆极化
石墨烯
极化子
量子点
超材料
材料科学
光子学
量子
表面等离子体子
对称(几何)
范德瓦尔斯力
光子晶体
负折射
自旋电子学
色散(光学)
拓扑绝缘体
光学
激子极化
表面等离子体激元
作者
Yaolong Li,Xu Shi,Yuxin Zhang,Yen-En Liu,HONG YANG,Guowei Lyu,Yasutaka Matsuo,Xiaoyong Hu,Qihuang Gong,Hiroaki Misawa
标识
DOI:10.1038/s41467-026-69435-8
摘要
Two-dimensional (2D) van der Waals materials with strong in-plane anisotropy are emerging as fertile platforms for nanophotonics beyond conventional isotropic noble metals and dielectrics. Here, we demonstrate hyperbolic localized plasmon resonances (H-LPRs) in MoOCl2, a representative anisotropic 2D crystal. Unlike conventional plasmons, H-LPRs arise directly from the crystal anisotropy and show unprecedented properties: (i) one-dimensional resonances in circularly symmetric nanodisks, (ii) Z-gap independence in metal-insulator-metal heterostructures, and (iii) twist-induced chirality with circular dichroism values exceeding 0.65. The H-LPRs are characterized by both far-field spectra and near-field imaging. By stacking twisted MoOCl2 flakes, we bridge H-LPRs with concepts of moiré photonics and twistronics, introducing a new degree of freedom in plasmonic design. These findings establish H-LPRs in anisotropic 2D materials as a generalizable and versatile platform for polarization engineering, ultrasensitive chiral sensing, and integration into compact on-chip and quantum nanophotonic devices.
科研通智能强力驱动
Strongly Powered by AbleSci AI