Different phases in non-Hermitian topological semiconductor stripe laser arrays
Author(s): Chen, JX (Chen, Jingxuan); Fu, T (Fu, Ting); Wang, YF (Wang, Yufei); Wang, XY (Wang, Xueyou); Dai, YQ (Dai, Yingqiu); Qi, AY (Qi, Aiyi); Wang, MJ (Wang, Mingjin); Zheng, WH (Zheng, Wanhua)
Source: OPTICS EXPRESS Volume: 30 Issue: 22 Pages: 39244-39257 DOI: 10.1364/OE.466106 Published: OCT 24 2022
Abstract: As a novel branch of topology, non-Hermitian topological systems have been extensively studied in theory and experiments recently. Topological parity-time (PT)-symmetric semiconductor stripe laser arrays based on the Su-Schreiffer-Heeger model are proposed. The degree of non-Hermicity can be tuned by altering the length of the cavities, and PT symmetry can be realized by patterned electrode. Three laser arrays working in different non-Hermitian phases are analyzed and fabricated. With the increasing degree of non-Hermicity, the peaks of output intensities move from the edge to the bulk. The proposed semiconductor stripe laser array can function as an active, flexible, and feasible platform to investigate and explore non-Hermitian topology for further developments in this field. (C) 2022 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement
Accession Number: WOS:000895401700002
PubMed ID: 36298880
ISSN: 1094-4087
Full Text: https://opg.optica.org/oe/fulltext.cfm?uri=oe-30-22-39244&id=509791