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Integration and Application of Microlens Arrays Within Heads-Up Displays Yan, Weicheng; Jin, Xian; Park, Hongbae S.; Le Blanc, Ashli; Abdollahi, Hamid; Stoeber, Boris; Holzman, Jonathan
Abstract
The proposed work targets a fundamental challenge in heads-up display technology—in that such displays must bring about tight imaging with a flat form factor to support integration within eyewear. A Gabor superlens, being coupled plano-concave and plano-convex microlens arrays (MLAs), is developed to meet this challenge. The MLAs are designed and optimized, via tradespace analyses and ray-based simulations, and then formed with a specialized fabrication process. The process applies plasma pretreatment to the substrate followed by dispensing, curing, and casting of microlenses on the substrate to realize arrays with the necessary diameters and radii of curvature. The plano-concave and plano-convex MLAs are coupled to form the superlens, which is packaged with a baffle and microdisplay to function as the heads-up display. Ray-based simulations and experimental characterizations are carried out on the modulation transfer function of the display to define its resolution. It is found that the superlens can bring about strong imaging performance— with a resolution of up to 30 cycles/mm—as well as the tight imaging and flat form factor that are needed for emerging heads-up display technologies.
Item Metadata
Title |
Integration and Application of Microlens Arrays Within Heads-Up Displays
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Creator | |
Contributor | |
Publisher |
IEEE Photonics Society
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Date Issued |
2018-12
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Description |
The proposed work targets a fundamental challenge in heads-up display
technology—in that such displays must bring about tight imaging with a flat form factor
to support integration within eyewear. A Gabor superlens, being coupled plano-concave
and plano-convex microlens arrays (MLAs), is developed to meet this challenge. The MLAs
are designed and optimized, via tradespace analyses and ray-based simulations, and then
formed with a specialized fabrication process. The process applies plasma pretreatment to
the substrate followed by dispensing, curing, and casting of microlenses on the substrate to
realize arrays with the necessary diameters and radii of curvature. The plano-concave and
plano-convex MLAs are coupled to form the superlens, which is packaged with a baffle and
microdisplay to function as the heads-up display. Ray-based simulations and experimental
characterizations are carried out on the modulation transfer function of the display to define
its resolution. It is found that the superlens can bring about strong imaging performance—
with a resolution of up to 30 cycles/mm—as well as the tight imaging and flat form factor
that are needed for emerging heads-up display technologies.
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Subject | |
Genre | |
Type | |
Language |
eng
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Date Available |
2021-05-20
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Provider |
Vancouver : University of British Columbia Library
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Rights |
Attribution-NonCommercial-NoDerivatives 4.0 International
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DOI |
10.14288/1.0398065
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URI | |
Affiliation | |
Citation |
W. Yan, X. Jin, H. S. Park, A. Le Blanc, H. Abdollahi, B. Stoeber, and J. F. Holzman, "Integration and application of microlens arrays within heads-up displays," IEEE Photonics Journal, vol. 10, pp. 6601910(1-10), 2018.
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Publisher DOI |
10.1109/JPHOT.2018.2876386
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Peer Review Status |
Reviewed
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Scholarly Level |
Faculty; Graduate
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Copyright Holder |
IEEE
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Rights URI | |
Aggregated Source Repository |
DSpace
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Item Media
Item Citations and Data
Rights
Attribution-NonCommercial-NoDerivatives 4.0 International