Tunable topological boundary modes enabled by synthetic translation dimension

IF 5.4 1区 物理与天体物理 Q1 OPTICS APL Photonics Pub Date : 2024-07-25 DOI:10.1063/5.0211778
Zheng Guan, Xiao-Dong Chen, Hao-Chang Mo, Jian-Wei Liu, Qian-Yu Shu, Yuan Cao, Wen-Jie Chen, Jian-Wen Dong
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Abstract

Topological boundary modes, which are localized at the edge of topological materials, have received significant attention for their various applications in robust waveguides, optical cavities, and topological lasers. To envision their further applications in tunable devices, we propose and demonstrate a scheme to dynamically manipulate topological boundary modes by exploiting the two translation parameters of photonic crystals. We find that the translation not only transports the Wannier state similar to conventional Thouless pumping but also induces a nonzero Chern number in the two-dimensional synthetic space while preserving the time-reversal symmetry in the real space. Through changing the translation, gapless and tunable topological boundary modes are demonstrated. As a specific application, we show a dynamic bandpass filter with real-time tuning over 100% bandgap, a capability that cannot be achieved with only one translation parameter. Our design opens a venue for the development of tunable topological devices based on synthetic parameter dimension and can be generalized to other bosonic systems.
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通过合成平移维度实现可调谐拓扑边界模式
拓扑边界模式定位于拓扑材料的边缘,因其在坚固波导、光腔和拓扑激光器中的各种应用而备受关注。为了设想它们在可调谐设备中的进一步应用,我们提出并演示了一种利用光子晶体的两个平移参数动态操纵拓扑边界模式的方案。我们发现,平移不仅能像传统的无汝泵送一样传输万尼尔态,还能在二维合成空间中诱导出非零的切尔数,同时在真实空间中保持时间反转对称性。通过改变平移,我们展示了无间隙和可调拓扑边界模式。在具体应用中,我们展示了一种动态带通滤波器,它可以在 100% 带隙范围内进行实时调谐,而这种能力是只有一个平移参数无法实现的。我们的设计为开发基于合成参数维度的可调拓扑器件开辟了道路,并可推广到其他玻色子系统。
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来源期刊
APL Photonics
APL Photonics Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
10.30
自引率
3.60%
发文量
107
审稿时长
19 weeks
期刊介绍: APL Photonics is the new dedicated home for open access multidisciplinary research from and for the photonics community. The journal publishes fundamental and applied results that significantly advance the knowledge in photonics across physics, chemistry, biology and materials science.
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