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Main Authors: Guo, Shengqun, Huang, Wendi, Tian, Feng, Zhou, Yufei, Wang, Yilan, Zhou, Taojie
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.05320
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author Guo, Shengqun
Huang, Wendi
Tian, Feng
Zhou, Yufei
Wang, Yilan
Zhou, Taojie
author_facet Guo, Shengqun
Huang, Wendi
Tian, Feng
Zhou, Yufei
Wang, Yilan
Zhou, Taojie
contents Topological photonics have been garnering widespread interest in engineering the flow of light with topological ideas. Strikingly, the recent introduction of higher-order topological insulators has generalized the fundamental framework of topological photonics, endowing counterintuitive strong confinement of light at lower-dimensional boundaries, thus unlocking exciting prospects for the exploration of topological phenomena in fresh routes as well as the design of topology-driven nanoscale light sources. Here, we revealed the photonic quadrupole topological phases can be activated by defect evolution and performed experimental demonstrations of associated nanoscale lasing operation under this paradigm. The quadrupole higher-order topological nanocavity is constructed by two topologically distinct photonic crystal slabs with opposite directions of defect evolution. Stable single mode emission and low lasing threshold in telecom C-band are achieved at room temperature of the defect-evolved quadrupole topological nanolaser. This work reveals new possibilities for photonic quadrupole topological phase transition, providing an intriguing route toward light confinement and modulation under the topological framework.
format Preprint
id arxiv_https___arxiv_org_abs_2505_05320
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Defect-evolved quadrupole higher-order topological nanolasers
Guo, Shengqun
Huang, Wendi
Tian, Feng
Zhou, Yufei
Wang, Yilan
Zhou, Taojie
Optics
Topological photonics have been garnering widespread interest in engineering the flow of light with topological ideas. Strikingly, the recent introduction of higher-order topological insulators has generalized the fundamental framework of topological photonics, endowing counterintuitive strong confinement of light at lower-dimensional boundaries, thus unlocking exciting prospects for the exploration of topological phenomena in fresh routes as well as the design of topology-driven nanoscale light sources. Here, we revealed the photonic quadrupole topological phases can be activated by defect evolution and performed experimental demonstrations of associated nanoscale lasing operation under this paradigm. The quadrupole higher-order topological nanocavity is constructed by two topologically distinct photonic crystal slabs with opposite directions of defect evolution. Stable single mode emission and low lasing threshold in telecom C-band are achieved at room temperature of the defect-evolved quadrupole topological nanolaser. This work reveals new possibilities for photonic quadrupole topological phase transition, providing an intriguing route toward light confinement and modulation under the topological framework.
title Defect-evolved quadrupole higher-order topological nanolasers
topic Optics
url https://arxiv.org/abs/2505.05320