Holographic Glasses | SIGGRAPH 2022

Jonghyun Kim, Manu Gopakumar, Suyeon Choi, Yifan Peng, Ward Lopes, Gordon Wetzstein

An ultra-thin VR display using computer-generated holography.

SIGGRAPH 2022 - 5 MIN TECH TALK

ABSTRACT

We present Holographic Glasses, a holographic near-eye display system with an eyeglasses-like form factor for virtual reality. Holographic Glasses are composed of a pupil-replicating waveguide, a spatial light modulator, and a geometric phase lens to create holographic images in a lightweight and thin form factor. The proposed design can deliver full-color 3D holographic images using an optical stack of 2.5 mm thickness. A novel pupil-high-order gradient descent algorithm is presented for the correct phase calculation with the user’s varying pupil size. We implement benchtop and wearable prototypes for testing. Our binocular wearable prototype supports 3D focus cues and provides a diagonal field of view of 22.8° with a 2.3 mm static eye box and additional capabilities of dynamic eye box with beam steering, while weighing only 60 g excluding the driving board.

FILES

Project page (link)

CITATION

J. Kim, M. Gopakumar, S. Choi, Y. Peng, W. Lopes, G. Wetzstein, Holographic Glasses for Virtual Reality, SIGGRAPH 2022

@inproceedings{kim2022holographicglasses,
title={Holographic Glasses for Virtual Reality},
author={Jonghyun Kim and Manu Gopakumar and Suyeon Choi and Yifan Peng and Ward Lopes and Gordon Wetzstein},
booktitle={Proceedings of the ACM SIGGRAPH},
pages={1–8},
year={2022}
}

Images of the binocular wearable prototype, including a top-down view of one side of the prototype and side view on a human head. Holographic Glasses can provide full-color 3D holographic images with 2.5 mm thick optics

Related Projects

You may also be interested in related projects from our group on holographic near-eye displays:

S. Choi, M. Gopakumar et al. “Time-multiplexed Neural Holography”, SIGGRAPH 2022 (link)
M. Gopakumar et al. “Unfiltered Holography”, Optics Letters 2021 (link)
S. Choi, M. Gopakumar et al. “Neural 3D Holography”, ACM SIGGRAPH Asia 2021 (link)
S. Choi et al. “Michelson Holography”, Optica 2021 (link)
Y. Peng et al. “Neural Holography”, ACM SIGGRAPH Asia 2020 (link)
N. Padmanaban et al. “Holographic Near-Eye Displays Based on Overlap-Add Stereograms”, ACM SIGGRAPH Asia 2019 (link)

Acknowledgements

The authors would like to thank David Luebke for helpful discussions and advice. Stanford researchers on this project were in part supported by a Kwanjeong Scholarship, a Stanford SGF, Intel, NSF (award 1839974), a PECASE by the ARO (W911NF-19-1-0120), and Sony.