Observing Movement of Dirac Cones from Single-Photon Dynamics
Autor: | Lu, Yong-Heng, Wang, Yao, Chang, Yi-Jun, Li, Zhan-Ming, Cui, Wen-Hao, Gao, Jun, Zhou, Wen-Hao, Zheng, Hang, Jin, Xian-Min |
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Rok vydání: | 2020 |
Předmět: | |
Zdroj: | Phys. Rev. B 103, 064304 (2021) |
Druh dokumentu: | Working Paper |
DOI: | 10.1103/PhysRevB.103.064304 |
Popis: | Graphene with honeycomb structure, being critically important in understanding physics of matter, exhibits exceptionally unusual half-integer quantum Hall effect and unconventional electronic spectrum with quantum relativistic phenomena. Particularly, graphene-like structure can be used for realizing topological insulator which inspires an intrinsic topological protection mechanism with strong immunity for maintaining coherence of quantum information. These various peculiar physics arise from the unique properties of Dirac cones which show high hole degeneracy, massless charge carriers and linear intersection of bands. Experimental observation of Dirac cones conventionally focuses on the energy-momentum space with bulk measurement. Recently, the wave function and band structure have been mapped into the real-space in photonic system, and made flexible control possible. Here, we demonstrate a direct observation of the movement of Dirac cones from single-photon dynamics in photonic graphene under different biaxial strains. Sharing the same spirit of wave-particle nature in quantum mechanics, we identify the movement of Dirac cones by dynamically detecting the edge modes and extracting the diffusing distance of the packets with accumulation and statistics on individual single-particle registrations. Our results of observing movement of Dirac cones from single-photon dynamics, together with the method of direct observation in real space by mapping the band structure defined in momentum space, pave the way to understand a variety of artificial structures in quantum regime. Comment: 7 pages, 4 figures, Comments welcome |
Databáze: | arXiv |
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