Author:
Velez-Zea Alejandro,Barrera-Ramírez John Fredy
Abstract
AbstractThis study demonstrates a full-color near-eye holographic display capable of superimposing color virtual scenes with 2D, 3D, and multiple objects with extended depth upon a real scene, which also has the ability to present different 3D information depending on the focus of the user’s eyes using a single computer-generated hologram per color channel. Our setup makes use of a hologram generation method based on two-step propagation and the singular value decomposition of the Fresnel transform impulse response function to efficiently generate the holograms of the target scene. Then, we test our proposal by implementing a holographic display that makes use of a phase-only spatial light modulator and time-division multiplexing for color reproduction. We demonstrate the superior quality and computation speed of this approach compared with other hologram generation techniques with both numerical and experimental results.
Funder
Sistema General de Regalías of Colombia
Comité para el Desarrollo de la Investigación—CODI
Universidad de Antioquia
Publisher
Springer Science and Business Media LLC
Reference40 articles.
1. Gabor, D. A new microscopic principle. Nature 161, 777–778 (1948).
2. Wang, Z. et al. Digital holography as metrology tool at micro-nanoscale for soft matter. Light Adv. Manuf. 3, 151 (2022).
3. Shanmugam, P., Light, A., Turley, A. & Falaggis, K. Variable shearing holography with applications to phase imaging and metrology. Light Adv. Manuf. 3, 16 (2022).
4. Abacousnac, J. & Grier, D. G. Dexterous holographic trapping of dark-seeking particles with Zernike holograms. Opt. Express 30, 23568–23578 (2022).
5. Kim, H., Kim, M., Lee, W. & Ahn, J. Gerchberg–Saxton algorithm for fast and efficient atom rearrangement in optical tweezer traps. Opt. Express 27, 2184–2196 (2019).
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