	US 12,228,730 B2
	Two-dimensional exit pupil expansion method for waveguide display based on polarization volume gratings
Yishi Weng, Nanjing (CN); Yuning Zhang, Nanjing (CN); Yuchen Gu, Nanjing (CN); Lixuan Zhagn, Nanjing (CN); Chuang Wang, Nanjing (CN); and Ran Wei, Nanjing (CN)
Assigned to SOUTHEAST UNIVERSITY, Nanjing (CN)
Appl. No. 18/711,640
Filed by SOUTHEAST UNIVERSITY, Nanjing (CN)
PCT Filed Dec. 29, 2022, PCT No. PCT/CN2022/143663 § 371(c)(1), (2) Date May 20, 2024, PCT Pub. No. WO2023/125876, PCT Pub. Date Jul. 6, 2023.
Claims priority of application No. 202111636763.1 (CN), filed on Dec. 29, 2021.
Prior Publication US 2024/0418986 A1, Dec. 19, 2024
Int. Cl. G02B 6/35 (2006.01); G02B 6/34 (2006.01); G02B 27/00 (2006.01)

CPC G02B 27/0081 (2013.01) [G02B 6/34 (2013.01)]

3 Claims

1. A two-dimensional exit pupil expansion method for a waveguide display based on polarization volume grating (PVGs), comprising implementing a two-dimensional pupil expansion effect at an exit pupil position through a composite structure in an optical waveguide near-eye imaging system including the PVGs as waveguide couplers;

the composite structure comprises a waveguide medium and a two-layer out-coupling grating formed by compositing the PVGs; an in-coupling grating and the two-layer out-coupling grating are disposed at different positions on a waveguide; and when arranged according to a light beam transmission path, the out-coupling grating and the in-coupling grating as a whole are disposed inside or outside the waveguide medium;

the in-coupling grating has predetermined polarization selectivity and is allowed to diffract and emit a left-handed or right-handed elliptically polarized light beam at an angle where a total reflection condition of the waveguide medium is satisfied, wherein the left-handed or right-handed elliptically polarized light beam propagates in the waveguide in a total reflection way;

the two-layer out-coupling grating is disposed at another position on the waveguide medium, and is allowed to re-diffract a light beam in the waveguide at an angle smaller than an angle where a total reflection condition of the waveguide medium is satisfied, to emit the light beam in the waveguide medium out of the waveguide and introduce the light beam into a next human eye or other visual optical systems;

each one of the PVGs is a cholesteric-phase liquid crystal layer with two-dimensional periodicity such that an optical axis of each of the PVGs rotates at different angles in two different dimensions, and the PVGs have Bragg diffraction characteristics and polarization selectivity;

at least two PVGs are provided at different positions on the waveguide medium and configured to complete introduction of light rays into the waveguide medium and emission of exit pupil-expanded light rays, respectively; and the at least two PVGs are called the in-coupling grating and the two-layer out-coupling grating, respectively;

the two-layer out-coupling grating is formed by compositing the at least two PVGs such that grating vectors of the at least two PVGs are oriented in different directions, wherein each of the grating vectors define a plane of equal refractive index in the respective PVG inclined at a given angle; and the two-layer out-coupling grating is allowed to first steer the light beam transmitting in the waveguide medium to change a propagation path of the light beam in the waveguide, and at the same time emit the light beam out of the wave guide when the light beam is incident into the out-coupling grating again after the steering, to achieve functions of exit pupil expansion and coupled emission.