Inverse Design of Whispering-Gallery Nanolasers with Tailored Beam Shape and Polarization

Iago Diez; Andrey Krysa; Isaac J Luxmoore

doi:10.1021/acsphotonics.2c01165

Inverse Design of Whispering-Gallery Nanolasers with Tailored Beam Shape and Polarization

ACS Photonics. 2022 Nov 30;10(4):968-976. doi: 10.1021/acsphotonics.2c01165. eCollection 2023 Apr 19.

Authors

Iago Diez^{1

2}, Andrey Krysa³, Isaac J Luxmoore¹

Affiliations

¹ Department of Engineering, University of Exeter, EX4 4QF, Exeter, United Kingdom.
² Department of Physics and Astronomy, University of Exeter, EX4 4QL, Exeter, United Kingdom.
³ EPSRC National Epitaxy Facility, University of Sheffield, S1 3JD, Sheffield, United Kingdom.

Abstract

Control over the shape and polarization of the beam emitted by a laser source is important in applications such as optical communications, optical manipulation and high-resolution optical imaging. In this paper, we present the inverse design of monolithic whispering-gallery nanolasers which emit along their axial direction with a tailored laser beam shape and polarization. We design and experimentally verify three types of submicron cavities, each one emitting into a different laser radiation mode: an azimuthally polarized doughnut beam, a radially polarized doughnut beam and a linearly polarized Gaussian-like beam. The measured output laser beams yield a field overlap with respect to the target mode of 92%, 96%, and 85% for the azimuthal, radial, and linearly polarized cases, respectively, thereby demonstrating the generality of the method in the design of ultracompact lasers with tailored beams.