Subjects: Optics >> Quantum optics submitted time 2023-02-19
Yali Zeng
Qingdong Ou
Lu Liu
Chunqi Zheng
Ziyu Wang
Youning Gong
Xiang Liang
Yupeng Zhang
Guangwei Hu
Zhilin Yang
Cheng-Wei Qiu
Qiaoliang Bao
Huanyang Chen
Zhigao Dai
Abstract: Polaritons in polar biaxial crystals with extreme anisotropy offer a promising route to manipulate nanoscale light-matter interactions. The dynamical modulation of their dispersion is great significance for future integrated nano-optics but remains challenging. Here, we report a momentum-directed strategy, a coupling between the modes with extra momentum supported by the interface and in-plane hyperbolic polaritons, to tailor topological transitions of anisotropic polaritons in biaxial crystals. We experimentally demonstrate such tailored polaritons at the interface of heterostructures between graphene and {\alpha}-phase molybdenum trioxide ({\alpha}-MoO3). The interlayer coupling can be electrically modulated by changing the Fermi level in graphene, enabling a dynamic topological transition. More interestingly, we found that the topological transition occurs at a constant Fermi level when tuning the thickness of {\alpha}-MoO3. The momentum-directed strategy implemented by interface engineering offers new insights for optical topological transitions, which may shed new light for programmable polaritonics, energy transfer and neuromorphic photonics.
Peer Review Status:
Awaiting Review
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