Zhao, Han and Teimourpour, M. H. and Malzard, Simon and El-Ganainy, R. and Schomerus, Henning Ulrich and Feng, Liang (2018) Topological hybrid silicon microlasers. Nature Communications, 9: 981. ISSN 2041-1723
s41467_018_03434_2.pdf - Published Version
Available under License Creative Commons Attribution.
Download (912kB)
Abstract
Topological physics provides a robust framework for strategically controlling wave confinement and propagation dynamics. However, current implementations have been restricted to the limited design parameter space defined by passive topological structures. Active systems provide a more general framework where different fundamental symmetry paradigms, such as those arising from non-Hermiticity and nonlinear interaction, can generate a new landscape for topological physics and its applications. Here, we bridge this gap and present an experimental investigation of an active topological photonic system, demonstrating a topological hybrid silicon microlaser array respecting the charge-conjugation symmetry. The created new symmetry features favour the lasing of a protected zero mode, where robust single-mode laser action in the desired state prevails even with intentionally introduced perturbations. The demonstrated microlaser is hybrid implemented on a silicon-on-insulator substrate, and is thereby readily suitable for integrated silicon photonics with applications in optical communication and computing.