Spin-orbit beams for optical chirality measurement

Accurate measurement of chirality is essential for the advancement of natural and pharmaceutical sciences. We report here a method to measure chirality using non-separable states of light with geometric phase-gradient in the circular polarization basis, which we refer to as spin-orbit beams. A modif...

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Bibliographic Details
Published in:Applied physics letters 2018-01, Vol.112 (3)
Main Authors: Samlan, C. T., Suna, Rashmi Ranjan, Naik, Dinesh N., Viswanathan, Nirmal K.
Format: Article
Language:English
Subjects:
Angular momentum
Applied physics
Beams (radiation)
Chirality
Circular polarization
Gaussian beams (optics)
Rangefinding
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Summary:Accurate measurement of chirality is essential for the advancement of natural and pharmaceutical sciences. We report here a method to measure chirality using non-separable states of light with geometric phase-gradient in the circular polarization basis, which we refer to as spin-orbit beams. A modified polarization Sagnac interferometer is used to generate spin-orbit beams wherein the spin and orbital angular momentum of the input Gaussian beam are coupled. The out-of-phase interference between counter-propagating Gaussian beams with orthogonal spin states and lateral-shear or/and linear-phase difference between them results in spin-orbit beams with linear and azimuthal phase gradient. The spin-orbit beams interact efficiently with the chiral medium, inducing a measurable change in the center-of-mass of the beam, using the polarization rotation angle and hence the chirality of the medium are accurately calculated. Tunable dynamic range of measurement and flexibility to introduce large values of orbital angular momentum for the spin-orbit beam, to improve the measurement sensitivity, highlight the techniques' versatility.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.5008732