Waveguide pupil expansion

What is claimed is: 1 . A light engine arranged to form an image visible from a viewing window, wherein the light engine comprises: a display device arranged to display a hologram of the image and spatially modulate light in accordance with the hologram, wherein the hologram is configured to angularly distribute spatially modulated light of the image in accordance with a position of image content, such that angular channels of the spatially modulated light correspond with respective continuous regions of the image; a waveguide pupil expander arranged to receive the spatially modulated light and provide a plurality of different light propagation paths for the spatially modulated light from the display device to the viewing window; and a control device disposed between the waveguide pupil expander and the viewing window, wherein the control device comprises at least one aperture arranged such that a first viewing position within the viewing window receives a first channel of light spatially modulated by the hologram in accordance with a first region of the image and a second viewing position within the viewing window receives a second channel of light spatially modulated by the hologram in accordance with a second region of the image. 2 . The light engine of claim 1 wherein the first region and the second region are one or both of (i) adjacent regions of the image, or (ii) substantially non-overlapping. 3 . The light engine of claim 1 , wherein adjacent angular channels of the spatially modulated light correspond to adjacent regions of the image, and wherein the image is a virtual image perceived upstream of the display device. 4 . The light engine of claim 1 , wherein the control device is one or both of (i) coupled to an output face of the waveguide pupil expander, or (ii) configured to restrict an area of an output face of the waveguide pupil expander that is visible from the viewing window. 5 . The light engine of claim 1 , wherein the waveguide pupil expander and viewing window are non-parallel. 6 . The light engine of claim 1 , wherein the control device comprises a plurality of openings, wherein at least one opening provides the first viewing position and/or the second viewing position with a respective channel of spatially modulated light, such that different image content is delivered, respectively, to the first and second viewing positions at substantially the same time, and wherein the respective channels are non-overlapping but continuous. 7 . The light engine of claim 6 , wherein the control device is configured such that the plurality of openings is switchable between an open position and a closed position such that a plurality of different control device configurations is provided in which each control device configuration comprises an alternating sequence of open and closed openings. 8 . The light engine of claim 7 , wherein the control device is configured to provide a first control device configuration at a first time and a second control device configuration at a second time, wherein the first control device configuration and second control device configuration are complementary, and wherein a time interval between the first time and second time is less than an integration time of a human eye. 9 . The light engine of claim 6 , wherein a size and/or a location, within the control device, of at least one of the plurality of openings is dynamically variable. 10 . The light engine of claim 1 , wherein the image comprises a first image zone, a second image zone, a third image zone, and a fourth image zone, and wherein the first image zone, second image zone, third image, and fourth image zone correspond to ordered, contiguous areas of the image; wherein a first control device configuration provided by the control device delivers (i) light modulated in accordance with the first image zone and the third image zone of the image to the first viewing position and (ii) light modulated in accordance with the second image zone and the fourth image zone to the second viewing position; and wherein a second control device configuration provided by the control device delivers (i) light modulated in accordance with the second image zone and the fourth image zone to the first viewing position and (ii) light modulated in accordance with the first image zone and the third image zone to the second viewing position. 11 . The light engine of claim 10 , wherein image content corresponding to any one of the first image zone, the second image zone, the third image zone, or the fourth image zone as delivered to the first viewing position is non-identical to image content corresponding one of the first image zone, the second image zone, the third image zone, or the fourth image zone as delivered to the second viewing position. 12 . The light engine of claim 1 , wherein the first viewing position and second viewing position are first and second eye positions of a viewer, and the viewing window is an eye-box. 13 . The light engine of claim 1 , wherein the waveguide pupil expander comprises a plurality of transmission points, and wherein each of the plurality of different light propagation paths is transmitted from a different respective transmission point. 14 . A method of controlling light propagation in a light engine, to form an image visible from a viewing window, wherein the light engine comprises a display device, a waveguide pupil expander and a viewing system comprising the viewing window, wherein the method comprises: displaying, on the display device, a hologram of the image; illuminating the display device to spatially modulate light in accordance with the hologram, wherein the hologram is configured to angularly distribute spatially modulated light of the image in accordance with position of image content, such that angular channels of the spatially modulated light correspond with respective continuous regions of the image; arranging the waveguide pupil expander to receive the spatially modulated light and to provide a respective plurality of different light propagation paths for the spatially modulated light from the display device to the viewing window; and controlling propagation of the plurality of different light propagation paths using a control device disposed between the waveguide pupil expander and the viewing window, wherein the control device comprises at least one aperture; wherein the step of controlling propagation of the plurality of different light propagation paths comprises configuring the control device so that a first viewing position within the viewing window receives a first channel of light spatially modulated by the hologram in accordance with a first region of the image and a second viewing position within the viewing window receives a second channel of light spatially modulated by the hologram in accordance with a second region of the image. 15 . The method of claim 14 , further comprising calculating the hologram of the image. 16 . The method of claim 14 , wherein the step of configuring the control device comprises allowing transmission of light through a first portion of the control device and preventing transmission of light through a second, different portion of the control device. 17 . The method of claim 14 , wherein the waveguide pupil expander comprises a plurality of transmission points, and wherein each of the plurality of different light propagation paths is transmitted from a different respective transmission point. 18 . The method of claim 17 , further comprising: (i) identifying a first