1207.6694 (Motohiko Ezawa)
Motohiko Ezawa
Silicene (a monolayer of silicon atoms) is a quantum spin Hall insulator (QSHI), which undergoes a topological phase transition to a band insulator under external electric field $E_{z}$. We investigate a photo-induced topological phase transition by irradiating circular polarized light at fixed $E_{z}$. The band structure and also the topological property are modified by photon dressing. By increasing the intensity of light at $% E_{z}=0 $, a photo-induced quantum Hall insulator (P-QHI) is realized, where the quantum Hall effect occurs without magnetic field. Its edge modes are anisotropic chiral, in which the velocities of up and down spins are different. There appears a spin polarized metal characterized by topological flat bands at the critical point between the QSHI and P-QHI. At $E_{z}>E_{% \text{cr}}$ with a certain critical field $E_{\text{cr}}$, a photo-induced spin-polarized quantum Hall insulator emerge. This is a new state of matter, possessing one Chern number and one half spin-Chern numbers. The edge mode supports a perfectly spin-polarized current, which are different from the chiral or helical edge modes. We newly discovered a single Dirac-cone state along a phase boundary. A distinctive hallmark of the state is that one of the two Dirac valleys is closed with a linear dispersion and the other open with a parabolic dispersion.
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http://arxiv.org/abs/1207.6694
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