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Fast and light-efficient wavefront shaping with a MEMS phase-only light modulator

J. C. A. Rocha, Terry Wright, Unė G. Būtaitė, Joel Carpenter, George S. D. Gordon, David B. Phillips

2024Optics Express22 citationsDOIOpen Access PDF

Abstract

Over the last two decades, spatial light modulators (SLMs) have revolutionized our ability to shape optical fields. They grant independent dynamic control over thousands of degrees-of-freedom within a single light beam. In this work we test a new type of SLM, known as a phase-only light modulator (PLM), that blends the high efficiency of liquid crystal SLMs with the fast switching rates of binary digital micro-mirror devices (DMDs). A PLM has a 2D mega-pixel array of micro-mirrors. The vertical height of each micro-mirror can be independently adjusted with 4-bit precision. Here we provide a concise tutorial on the operation and calibration of a PLM. We demonstrate arbitrary pattern projection, aberration correction, and control of light transport through complex media. We show high-speed wavefront shaping through a multimode optical fiber – scanning over 2000 points at 1.44 kHz. We make available our custom high-speed PLM control software library developed in C++. As PLMs are based upon micro-electromechanical system (MEMS) technology, they are polarization agnostic, and possess fundamental switching rate limitations equivalent to that of DMDs – with operation at up to 10 kHz anticipated in the near future. We expect PLMs will find high-speed light shaping applications across a range of fields including adaptive optics, microscopy, optogenetics and quantum optics.

Topics & Concepts

OpticsSpatial light modulatorWavefrontPhase modulationElectro-optic modulatorOptical modulatorLight beamPhysicsLight intensityPhase (matter)Materials sciencePhase noiseQuantum mechanicsAdvanced Optical Imaging TechnologiesRandom lasers and scattering mediaOrbital Angular Momentum in Optics
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