Thermo-optic refraction based switchable optical mode converter

TL;DR

This paper presents a thermo-optic switchable optical mode converter using MoS2 nanofluid, where a thermal lens created by a focused laser enables dynamic conversion between LG and HG modes for optical communication.

Contribution

It introduces a novel thermo-optic mode converter driven by a thermal microlens in MoS2 nanofluid, enabling switchable mode transformation based on thermal refraction.

Findings

Successful demonstration of LG to HG mode conversion.

Thermal lens effect enables controllable mode switching.

Theoretical explanation aligns with experimental results.

Abstract

The temporally switchable optical mode conversion is crucial for optical communication and computing applications. This research demonstrates such optically switchable mode converter driven by thermo-optic refraction. The MoS2 nanofluid is used as a medium where the thermal microlens is created by a focused laser beam (pump). The convective thermal plume generated above the focal point of the pump beam within the nanofluid acts as an astigmatic thermal lens. It is discovered that mode conversion of the Laguerre-Gaussian (LG) to the Hermite-Gaussian (HG) beam (vice versa) takes place upon passing through the thermal lens. The topological charge of the LG beam can be easily determined using the proposed mode converter. The mode transformation is explained theoretically as the Fourier components of the LG beam undergoing different optical paths while propagating through the convective plume.