Optical systems having angle-selective transmission filters

What is claimed is: 1. A display system comprising: a first emissive display panel having pixels configured to emit light within a first wavelength range that propagates along an optical path extending from the first emissive display panel to an eye box, wherein the first wavelength range comprises a red wavelength range; a second emissive display panel configured to emit light within a second wavelength range that is different from the first wavelength range, wherein the second wavelength range comprises a green wavelength range; a third emissive display panel configured to emit light within a third wavelength range that is different from the first and second wavelength ranges, wherein the third wavelength range comprises a blue wavelength range; a first angle-selective transmission filter interposed on the optical path and configured to filter the light emitted by the pixels as a function of angle to produce filtered light; a waveguide interposed on the optical path, wherein the first angle-selective transmission filter is configured to remove at least a portion of the light from the optical path before the filtered light is provided to the waveguide; an input coupler on the waveguide and configured to couple the filtered light into the waveguide; an output coupler on the waveguide and configured to couple the filtered light out of the waveguide and towards an eye box; imaging optics between the first emissive display panel and the input coupler; a prism between the imaging optics and the first emissive display panel, wherein the first angle-selective transmission filter is between the first emissive display panel and the prism, the first angle-selective transmission filter is configured to transmit the filtered light towards the prism, the prism is configured to transmit the filtered light towards the imaging optics, and the imaging optics is configured to transmit the filtered light towards the input coupler; a second angle-selective transmission filter between the second emissive display panel and the prism, wherein the second angle-selective transmission filter is configured to filter the light emitted by the second emissive display panel as a function of angle to produce second filtered light and is configured to transmit the second filtered light to the prism; and a third angle-selective transmission filter between the third emissive display panel and the prism, wherein the third angle-selective transmission filter is configured to filter the light emitted by the third emissive display panel as a function of angle to produce third filtered light and is configured to transmit the third filtered light to the prism. 2. The display system of claim 1 , wherein the pixels comprise light sources selected from the group consisting of: light-emitting diodes (LEDs), organic light-emitting diodes (OLEDs), micro-light-emitting diodes (uLEDs), and lasers. 3. The display system of claim 1 , wherein the first angle-selective transmission filter is configured to transmit an additional portion of the light emitted by the first emissive display panel and is configured to re-direct the portion of the light emitted by the first emissive display panel, wherein the additional portion spans a first set of angles about a normal axis of a lateral surface of the first angle-selective transmission filter, wherein the portion spans a second set of angles about the normal axis, and wherein the second set of angles are farther from the normal axis than the first set of angles. 4. The display system of claim 3 , wherein the first angle-selective transmission filter comprises: an additional waveguide; an absorber on the additional waveguide; and diffractive grating structures on the additional waveguide, wherein the diffractive grating structures are configured to diffract the portion of the light towards the absorber via a total internal reflection mode of the additional waveguide. 5. The display system of claim 3 , wherein the first angle-selective transmission filter comprises: louvered mirror structures configured to reflect the portion of the light away from the waveguide. 6. The display system of claim 3 , wherein the first angle-selective transmission filter comprises diffractive grating structures configured to diffract the portion of the light while transmitting the additional portion of the light. 7. The display system of claim 6 , wherein the diffractive grating structures comprise grating structures selected from the group consisting of: thin-film holograms, volume holograms, and surface relief gratings. 8. The display system of claim 6 , wherein the diffractive grating structures have grating vectors oriented parallel to the normal axis. 9. The display system of claim 6 , wherein the diffractive grating structures comprise first, second, and third holograms each configured to diffract light incident at a different respective subset of the second set of angles. 10. The display system of claim 9 , wherein the first angle-selective transmission filter comprises a first layer of grating media that includes the first hologram, a second layer of grating media that includes the second hologram, and a third layer of grating media that includes the third hologram. 11. The display system of claim 9 , wherein the first angle-selective transmission filter comprises a layer of grating media that includes the first, second, and third holograms, the first, second, and third holograms being superimposed within the same volume of the layer of grating media. 12. The display system of claim 9 , wherein the angle-selective transmission filter comprises a layer of grating media that includes the first, second, and third holograms, and wherein the first, second, and third holograms are superimposed within the same volume of the layer of grating media. 13. The display system of claim 6 , wherein the diffractive grating structures are configured to diffract the portion of the light at output angles within a light cone associated with the additional portion of the light. 14. The display system of claim 1 , wherein the first angle-selective transmission filter comprises: a first set of diffractive grating structures on a first waveguide; and a second set of diffractive grating structures on a second waveguide, wherein the first set of diffractive grating structures are configured to diffract the portion of light in a first direction and the second set of diffractive grating structures are configured to direct the portion of light in a second direction that is different than the first direction. 15. The display system of claim 14 , wherein the second direction is orthogonal to the first direction. 16. A display system comprising: an emissive display panel having pixels configured to emit light that propagates along an optical path extending from the emissive display panel to an eye box; an angle-selective transmission filter interposed on the optical path and configured to filter the light emitted by the pixels as a function of angle to produce filtered light; a waveguide interposed on the optical path, wherein the angle-selective transmission filter is configured to remove a first portion of the light from the optical path before the filtered light is provided to the waveguide, to transmit a second portion of the light emitted by the emissive display panel, and to re-direct the first portion of the light, wherein the second portion of the light spans a first set of angles about a normal axis of a lateral surface of the angle-selective transmission filter, wherein the first portion of the light spans a second set of angle