Litcius/Paper detail

3D Switchable Diffractive Optical Elements Fabricated with Two‐Photon Polymerization

John J. Sandford O’Neill, Patrick S. Salter, Zimo Zhao, Bohan Chen, Hassan Daginawalla, Martin J. Booth, Steve J. Elston, Stephen Morris

2022Advanced Optical Materials48 citationsDOIOpen Access PDF

Abstract

Abstract Direct laser writing is demonstrated by two‐photon polymerization of multi‐element diffractive optical components that can be switched on and off with an applied voltage. By exploiting the 3D capabilities of the laser microfabrication technique, multiple diffractive optical elements are written into a single liquid crystal (LC) layer. The switching behavior of the diffractive optical elements is controlled by simply changing the write‐voltage of the anisotropic polymer structures during fabrication. Initially, 2D diffraction gratings are written at different depths within the LC layer. Each element is then activated by applying a voltage of sufficient amplitude that causes the second diffractive optical element to become inactive. This is then followed by a demonstration of multi‐element computer generated holograms that are written at different depths within the LC layer. By altering the magnitude of the applied voltage, different images/patterns can be observed in the replay field using a simple electrode configuration. These compact and transmissive LC optical components could excel in applications where a degree of switchability is required but a highly pixelated fully programmable device is excessive.

Topics & Concepts

Materials scienceMicrofabricationHolographyOptoelectronicsOpticsFabricationLiquid crystalLaserDiffractionVoltageDiffraction efficiencyDiffraction gratingLayer (electronics)NanotechnologyGratingPhysicsQuantum mechanicsAlternative medicineMedicinePathologyNonlinear Optical Materials StudiesLiquid Crystal Research AdvancementsPhotochromic and Fluorescence Chemistry