Dr. Rachel Offer Profile

Dr. Rachel Offer

at Univ of Strathclyde

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Proceedings Article | 1 April 2020 Presentation + Paper

Tight focal spots using azimuthally polarised light from a Fresnel cone

R. Hawley, R. Offer, N. Radwell, S. Franke-Arnold

Proceedings Volume 11359, 1135910 (2020) https://doi.org/10.1117/12.2559535

KEYWORDS: Polarization, Microscopes, Objectives, Glasses, Phase shifts, Beam splitters, Microscopy, Reflection

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When focusing a light beam at high numerical aperture, the resulting electric field profile in the focal plane depends on the transverse polarisation profile, as interference between different parts of the beam needs to be taken into account. It is well known that radial polarised light produces a longitudinal polarisation component and can be focused below the conventional diffraction limit for homogeneously polarised light, and azimuthally polarised light that carries one unit of angular momentum can achieve even tighter focal spots. This is of interest for example for enhancing resolution in scanning microscopy. There are numerous ways to generate such polarisation structures, however, setups can be expensive and usually rely on birefringent components, hence prohibiting broadband operation. We have recently demonstrated a passive, low-cost technique using a simple glass cone (Fresnel cone) to generate beams with structured polarisation. We show here that the polarisation structure generated by Fresnel cones focuses better than radial polarised light at all numerical apertures. Furthermore, we investigate in detail the application of polarised light structures for two-photon microscopy. Specifically we demonstrate a method that allows us to generate the desired polarisation structure at the back aperture of the microscope by pre-compensating any detrimental phase shifts using a combination of waveplates.

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