Topology optimization of multi-track ring resonators and 2D microcavities for nonlinear frequency conversion

Author(s): Lin, Z; Lončar, M; Rodriguez, Alejandro W

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Abstract:	We exploit recently developed topology-optimization techniques to design complex, wavelength-scale resonators for enhancing various nonlinear χ2 and χ3 frequency conversion processes. In particular, we demonstrate aperiodic, multi-track ring resonators and two-dimensional slab microcavities exhibiting long lifetimes Q ≳ 104, small modal volumes V ≳ λ∕2n3, and among the largest nonlinear overlaps (a generalization of phase matching in large-etalon waveguides) possible, paving the way for efficient, compact, and wide-bandwdith integrated nonlinear devices.
Publication Date:	2017
Citation:	Lin, Z, Lončar, M, Rodriguez, AW. (2017). Topology optimization of multi-track ring resonators and 2D microcavities for nonlinear frequency conversion. Optics Letters, 42 (2818 - 2821. doi:10.1364/OL.42.002818
DOI:	doi:10.1364/OL.42.002818
Pages:	2818 - 2821
Type of Material:	Journal Article
Journal/Proceeding Title:	Optics Letters
Version:	Author's manuscript