Naslov
Wavepacket Self‐Rotation and Helical Zitterbewegung in Symmetry‐Broken Honeycomb Lattices

Autori
Liu, Xiuying ; Lunić, Frane ; Song, Daohong ; Dai, Zhixuan ; Xia, Shiqi ; Tang, Liqin ; Xu, Jingjun ; Chen, Zhigang ; Buljan, Hrvoje

Izvornik
Laser & Photonics Reviews (1863-8880) 15 (2021), 7; 2000563, 9

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
Berry curvature ; Symmetry broken honeycomb lattice ; Valley degree of freedom ; Wavepacket self-rotation ; Zitterbewegung

Sažetak
The toolbox quantities used for manipulating the flow of light include typically amplitude, phase, and polarization. Pseudospins, such as those arising from valley degrees of freedom in photonic structures, have recently emerged as an excellent candidate for this toolbox, in parallel with rapid development of spintronics and valleytronics in condensed-matter physics. Here, by employing symmetry-broken honeycomb photonic lattices, valley-dependent wavepacket self-rotation manifested in spiraling intensity patterns is demonstrated, which occurs without any initial orbital angular momentum. Theoretically, it is shown that such wavepacket self-rotation is induced by the Berry phase and results in Zitterbewegung oscillations. The frequency of Zitterbewegung is proportional to the gap size, while the helicity of self-rotation is valley-dependent, i.e., correlated with the Berry curvature. These results lead to new understanding of the venerable Zitterbewegung phenomenon from the perspective of topology and are readily applicable on other platforms such as 2D Dirac materials and ultracold atoms.

Izvorni jezik
Engleski

Znanstvena područja
Fizika

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