Lasing from Doubly Degenerate Bound States in the Continuum
Xiaobo Zhou, Zhuang Li, Yufeng Zhou, C. L. Bai, Xianyu Ao
Abstract
This paper reports dual-mode vortex lasing with a topological charge of −2 via doubly degenerate bound states in the continuum. We patterned a photonic crystal slab with hexagonal TiO 2 nanoparticles arranged in a hexagonal lattice to support doubly degenerate bound states in the continuum at the Γ point, and the finite array was truncated to have a square boundary. Because emission from bound states in the continuum at the Γ point is forbidden, lasing emerges at off-Γ points, where the double degeneracy is lifted, resulting in two lasing peaks close in wavelength. The coherence time of vortex lasing is about 1.4 ps under pulsed pumping with a width of 75 fs. Polarization- and angle-resolved spectral measurements reveal that the two lasing peaks show orthogonal polarization states.