Determination of Stokes vector from a single image acquisition

TL;DR

This paper presents a novel single-image method for determining the Stokes vector using a 4-polarisation camera with integrated on-chip polarisers, enabling rapid polarimetric measurements in various applications.

Contribution

Introduction of a single-snapshot Stokes polarimetry technique using a 4-polarisation camera with integrated polarisers, simplifying and speeding up polarization measurements.

Findings

Successfully measured birefringence of spider silk using microscopy.

Method is transferable to other spectral ranges and imaging scenarios.

Potential applications include satellite imaging and monitoring fast events.

Abstract

Four Stokes parameters (1852) define the polarisation state of light. Measured changes of the Stokes vector of light traversing an inhomogeneous sample are linked to the local anisotropies of absorption and refraction and are harnessed over an increasing range of applications in photonics, material, and space/earth observation. Several independent polarisation sensitive measurements are usually required for determination of the all four Stokes parameters, which makes such characterisation procedure time-consuming or requires complex setups. Here we introduce a single-snapshot approach to Stokes polarimetry in transmission by use of a 4-polarisation camera with the on-chip integrated polarisers. A quarter-waveplate was added in front of the sample and was illuminated by a linearly polarised light. This approach is demonstrated by measuring birefringence $\Delta n\sim 0.012$ of spider silk of only $\sim 6~\mu$m-diameter using microscopy, however, due to its generic nature, it is transferable to other spectral ranges and imaging applications, e.g., imaging from a fast moving satellite or drone or monitoring fast changing events such as phase transitions.