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1. Holographic Fabrication of 3D Moiré Photonic Crystals Using Circularly Polarized Laser Beams and a Spatial Light Modulator

   https://doi.org/10.3390/mi14061217  

   Hurley, Noah; Kamau, Steve; Cui, Jingbiao; Lin, Yuankun (June 2023, Micromachines)

   A moiré photonic crystal is an optical analog of twisted graphene. A 3D moiré photonic crystal is a new nano-/microstructure that is distinguished from bilayer twisted photonic crystals. Holographic fabrication of a 3D moiré photonic crystal is very difficult due to the coexistence of the bright and dark regions, where the exposure threshold is suitable for one region but not for the other. In this paper, we study the holographic fabrication of 3D moiré photonic crystals using an integrated system of a single reflective optical element (ROE) and a spatial light modulator (SLM) where nine beams (four inner beams + four outer beams + central beam) are overlapped. By modifying the phase and amplitude of the interfering beams, the interference patterns of 3D moiré photonic crystals are systemically simulated and compared with the holographic structures to gain a comprehensive understanding of SLM-based holographic fabrication. We report the holographic fabrication of phase and beam intensity ratio-dependent 3D moiré photonic crystals and their structural characterization. Superlattices modulated in the z-direction of 3D moiré photonic crystals have been discovered. This comprehensive study provides guidance for future pixel-by-pixel phase engineering in SLM for complex holographic structures. 

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2. Single-shot phase calibration of a spatial light modulator using geometric phase interferometry

   https://doi.org/10.1364/AO.383610  

   DeMars, L; Mikula-Zdankowska, M; Konstantinos, F; Porras-Aguilar, R (May 2020, Applied optics)

   A vibration-insensitive, single-shot phase-calibration method for phase-only spatial light modulators (SLM) is reported. The proposed technique uses a geometric phase lens to forma phase-shifting radial shearing interferometer to enable common-path measurements. This configuration has several advantages: (a) unlike diffraction-based SLM calibration techniques, this technique is robust against intensity errors due to misalignment; (b) unlike twobeam interferometers, this technique offers a high environmental stability; and (c) unlike intensity-based methods, the phase-shifting capability provides a phase uncertainty routinely in the order of 2=100. The experimental results show a significantly higher accuracy when compared to the diffraction-based approaches. © 2020 Optical Society of America https://doi.org/10.1364/AO.383610 

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3. Implementation of a null test for freeform optics using a high-definition spatial light modulator

   https://doi.org/10.1364/OE.473853  

   Chaudhuri, Romita; Wansha, Alexander; Porras-Aguilar, Rosario; Rolland, Jannick_P (November 2022, Optics Express)

   We report the implementation of an interferometric null test using a high-definition spatial light modulator (SLM) as a reconfigurable alternative to a computer-generated hologram. We detail the alignment process chain, including novel techniques using the SLM to project alignment fiducials on the test part. To validate the alignment protocol, we measure a mild off-axis conic with the SLM-based system and cross-validate with conventional interferometry within 30 nm root-mean-square (RMS) surface figure. Finally, we report the null test of a 65 mm clear aperture concave freeform with 91 μm peak-valley sag departure from the base sphere. The measured surface figure of the freeform is within 40 nm RMS compared to the measurement with a commercial metrology instrument. 

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4. Harmonically decoupled gradient light interference microscopy (HD-GLIM)

   https://doi.org/10.1364/OL.379732  

   Wang, Yi; Kandel, Mikhail_E; Fanous, Michael_J; Hu, Chenfei; Chen, HsuanYu; Lu, Xiaoxu; Popescu, Gabriel (March 2020, Optics Letters)

   Differential phase sensitive methods, such as Nomarski microscopy, play an important role in quantitative phase imaging due to their compatibility with partially coherent illumination and excellent optical sectioning ability. In this Letter, we propose a new system, to the best of our knowledge, to retrieve differential phase information from transparent samples. It is based on a 4f optical system with an amplitude-type spatial light modulator (SLM), which removes the need for traditional differential interference contrast (DIC) optics and specialized phase-only SLMs. We demonstrate the principle of harmonically decoupled gradient light interference microscopy using standard samples, as well as static and dynamic biospecimens. 

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5. Einstein beams: optical beams following gravitationally lensed trajectories

   https://doi.org/10.1117/12.2582367  

   Galvez, Enrique J.; Freedman, Jake M. (March 2021, Complex Light and Optical Forces XV)

   Andrews, David L.; Galvez, Enrique J.; Rubinsztein-Dunlop, Halina (Ed.)

   We use a spatial light modulator (SLM) to mimic the e ect of gravity and steer the light from a laser to observe Einstein rings with a laboratory camera. The derived programming of the phase of the SLM follows a logarithmic dependence with impact parameter. As expected, we also observe arcs when the source and lensing object are not in line with the observer. Measurements for distinct parameters are consistent with the expectations. The coherent optical beams that are programmed to follow gravitational lensing trajectories have a transverse mode consistent with Bessel functions, yet they do not exhibit the non-di racting properties of Bessel beams: they expand linearly with the propagation distance. The addition of a vortex phase also produces patterns that coincide with Bessel modes of order given by the topological charge of the vortex. 

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