Exploiting Angular Multiplexing for Polarization-diversity in Off-axis   Digital Holography

Sjoerd van der Heide; Rutger van Anrooij; Menno van den Hout; Nicolas; K. Fontaine; Roland Ryf; Haoshuo Chen; Mikael Mazur; Jose Enrique; Antonio-Lopez; Juan Carlos Alvarado-Zacarias; Ton Koonen; Rodrigo; Amezcua-Correa; Chigo Okonkwo

arXiv:2010.14968·eess.IV·August 17, 2021·ECOC

Exploiting Angular Multiplexing for Polarization-diversity in Off-axis Digital Holography

Sjoerd van der Heide, Rutger van Anrooij, Menno van den Hout, Nicolas, K. Fontaine, Roland Ryf, Haoshuo Chen, Mikael Mazur, Jose Enrique, Antonio-Lopez, Juan Carlos Alvarado-Zacarias, Ton Koonen, Rodrigo, Amezcua-Correa, Chigo Okonkwo

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TL;DR

This paper introduces angular multiplexing in off-axis digital holography to enhance polarization-diversity, offering increased flexibility over traditional spatial multiplexing methods, with comparable cross-talk and loss characteristics to photonic lanterns.

Contribution

The paper presents a novel angular multiplexing technique for polarization-diversity in digital holography, expanding the flexibility of optical setups.

Findings

01

Angular multiplexing effectively enhances polarization-diversity.

02

Cross-talk and mode-dependent loss are comparable to photonic lanterns.

03

The method improves flexibility in optical system design.

Abstract

Digital holography measures the complex optical field and transfer matrix of a device, polarization-diversity is often achieved through spatial multiplexing. We introduce angular multiplexing, to increase flexibility in the optical setup. Comparatively, similar values for cross-talk and mode-dependent loss are measured for a photonic lantern.

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