Rainbow removal in near-eye display using polarization-sensitive grating
First Claim
1. An optical system configured to provide a display for a user, comprising:
- a transparent substrate of optical material configured as a waveguide, the waveguide having a back side that is located adjacent to an eye of a user when the optical system is in use, and the waveguide having a front side opposite the back side;
a polarizing filter positioned on a front side of the waveguide, the polarizing filter being configured to filter stray light entering the waveguide, or light from real-world objects entering the waveguide, into a first polarization state;
an imager configured to generate one or more optical beams having a second polarization state that is different from the first polarization state;
a first diffractive optical element (DOE) disposed on the waveguide, the first DOE having an input surface and configured as an in-coupling grating to receive, from the imager, one or more optical beams having the second polarization state as an input;
a second DOE disposed on the waveguide and configured for pupil expansion of the one or more optical beams having the second polarization state along a first direction; and
a third DOE disposed on the waveguide and configured to receive the one or more optical beams in the second polarization state from the second DOE, the third DOE configured for pupil expansion of the one or more optical beams along a second direction, and further configured as an out-coupling grating to out-couple, as an output display to the eye of the user from the back side of the waveguide, one or more optical beams with expanded pupil relative to the input,wherein the out-coupling grating is configured for sensitivity to the second polarization state so that only the one or more optical beams in the second polarization state received from the second DOE are out-coupled as the output display to the eye of the user from the back side of the waveguide and the stray light or light from real-world objects in the first polarization state passes through the out-coupling grating without being out-coupled from the back side of the waveguide to the eye of the user third DOE.
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Accused Products
Abstract
In a near-eye optical display system comprising a waveguide and diffractive optical elements (DOEs) configured for in-coupling, exit pupil expansion, and out-coupling, a rainbow phenomenon manifested in the display may be removed or reduced using a polarizing filter at the front of the system so that real-world/stray light entering the system has a particular polarization state, for example TM-polarized. The polarizing filter is utilized in conjunction with a downstream out-coupling DOE that includes diffractive grating structures that are configured to enable sensitivity to an opposite polarization state, for example TE-polarized. An imager is configured to produce virtual-world images that also have a TE-polarized state. The polarization-sensitive out-coupling DOE diffracts the TE-polarized imaging beam out of the grating for display while the TM-polarized light from the real world and/or stray light passes through the grating without diffraction and thus cannot contribute to rainbows in the display.
197 Citations
4 Claims
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1. An optical system configured to provide a display for a user, comprising:
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a transparent substrate of optical material configured as a waveguide, the waveguide having a back side that is located adjacent to an eye of a user when the optical system is in use, and the waveguide having a front side opposite the back side; a polarizing filter positioned on a front side of the waveguide, the polarizing filter being configured to filter stray light entering the waveguide, or light from real-world objects entering the waveguide, into a first polarization state; an imager configured to generate one or more optical beams having a second polarization state that is different from the first polarization state; a first diffractive optical element (DOE) disposed on the waveguide, the first DOE having an input surface and configured as an in-coupling grating to receive, from the imager, one or more optical beams having the second polarization state as an input; a second DOE disposed on the waveguide and configured for pupil expansion of the one or more optical beams having the second polarization state along a first direction; and a third DOE disposed on the waveguide and configured to receive the one or more optical beams in the second polarization state from the second DOE, the third DOE configured for pupil expansion of the one or more optical beams along a second direction, and further configured as an out-coupling grating to out-couple, as an output display to the eye of the user from the back side of the waveguide, one or more optical beams with expanded pupil relative to the input, wherein the out-coupling grating is configured for sensitivity to the second polarization state so that only the one or more optical beams in the second polarization state received from the second DOE are out-coupled as the output display to the eye of the user from the back side of the waveguide and the stray light or light from real-world objects in the first polarization state passes through the out-coupling grating without being out-coupled from the back side of the waveguide to the eye of the user third DOE. - View Dependent Claims (2, 3, 4)
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Specification