Switchable multilayer cholesteric liquid crystal reflective polarizer

What is claimed is: 1. An optical device, comprising: a light source; a polarization selective optical element including a stack of a plurality of cholesteric liquid crystal layers, the plurality of cholesteric liquid crystal layers including a first cholesteric liquid crystal layer with liquid crystal molecules arranged in a first helical configuration having a first pitch range for light of a first wavelength range and a second cholesteric liquid crystal layer with liquid crystal molecules arranged in a second helical configuration having a second pitch range for light of a second wavelength range that is different from the first wavelength range; a partial reflector located between the light source and the polarization selective optical element; a first lens positioned between the polarization selective optical element and the partial reflector; and a second lens positioned relative to the polarization selective optical element so that the polarization selective optical element is positioned between the second lens and the partial reflector. 2. The optical device of claim 1 , wherein the first pitch range includes a pitch greater than any pitch in the second pitch range. 3. The optical device of claim 1 , wherein the first wavelength range includes a wavelength corresponding to green color and the second wavelength range includes a wavelength corresponding to blue color, and the first cholesteric liquid crystal layer is located at a first distance from the light source and the second cholesteric liquid crystal layer is located at a second distance greater than the first distance from the light source. 4. The optical device of claim 3 , wherein the plurality of cholesteric liquid crystal layers also includes a third cholesteric liquid crystal layer with liquid crystal molecules arranged in a third helical configuration having a third pitch range for light of a third wavelength range, the third wavelength range includes a wavelength corresponding to red color, and the third cholesteric liquid crystal layer is located at a third distance greater than the first distance from the light source. 5. The optical device of claim 1 , wherein a respective cholesteric liquid crystal layer of the plurality of cholesteric liquid crystal layers is switchable between different states, including a first state that and a second state distinct from the first state. 6. The optical device of claim 5 , wherein: while the respective cholesteric liquid crystal layer is in the first state, the liquid crystal molecules of the respective cholesteric liquid crystal layer are arranged in a helical configuration having a particular handedness and a particular pitch range; and while the respective cholesteric liquid crystal layer is in the second state, the liquid crystal molecules of the respective cholesteric liquid crystal layer are arranged in a linear configuration. 7. The optical device of claim 5 , wherein a respective cholesteric liquid crystal layer in the plurality of cholesteric liquid crystal layers is individually switchable. 8. The optical device of claim 1 , wherein the plurality of cholesteric liquid crystal layers includes four or more cholesteric liquid crystal layers. 9. The optical device of claim 1 , wherein: the first helical configuration and the second helical configuration have a same handedness. 10. The optical device of claim 1 , wherein: the first cholesteric liquid crystal layer is configured to redirect a first portion of received light having a first polarization and within the first wavelength range and transmit a second portion of the received light having a second polarization orthogonal to the first polarization or having a wavelength outside the first wavelength range; and the second cholesteric liquid crystal layer is positioned to receive the second portion of the light. 11. The optical device of claim 1 , wherein the first cholesteric liquid crystal layer and the second cholesteric liquid crystal layer have a common geometric axis. 12. The optical device of claim 1 , wherein the polarization selective optical element is in contact with a curved surface of the second lens. 13. The optical device of claim 1 , wherein the polarization selective optical element is in contact with a flat surface of the second lens. 14. The optical device of claim 1 , wherein the polarization selective optical element is in contact with the first lens and the second lens. 15. The optical device of claim 1 , wherein: the polarization selective optical element is positioned to receive first light from the partial reflector, the first light having a first polarization; and a respective cholesteric liquid crystal layer is switchable between different states, including a first state and a second state distinct from the first state, so that, while the respective cholesteric liquid crystal layer is in the first state, the optical device focuses at least a portion of the first light at a first location having a first distance from the first lens, and while the respective cholesteric liquid crystal layer is in the second state, the optical device focuses at least a portion of the first light at a second location having a second distance distinct from the first distance from the first lens. 16. A method, comprising: receiving light including a first wavelength and a second wavelength from the light source of the optical device of claim 1 ; and transmitting the light through the polarization selective optical element of the optical device, the polarization selective optical element including a stack of a plurality of cholesteric liquid crystal layers, the plurality of cholesteric liquid crystal layers including a first cholesteric liquid crystal layer with liquid crystal molecules arranged in a first helical configuration having a first pitch range for light of a first wavelength range including the first wavelength and a second cholesteric liquid crystal layer with liquid crystal molecules arranged in a second helical configuration having a second pitch range for light of a second wavelength range that is different from the first wavelength range and including the second wavelength, including transmitting the light through the first cholesteric liquid crystal layer prior to transmitting the light through the second cholesteric liquid crystal layer. 17. The method of claim 16 , further comprising: switching the first cholesteric liquid crystal layer between a first state for redirecting at least a portion of the light and a second state for transmitting the light independent of a state the second cholesteric liquid crystal layer is in; and switching the second cholesteric liquid crystal layer between the first state and the second state independent of the state the first cholesteric liquid crystal layer is in. 18. The optical device of claim 1 , wherein the second lens is positioned to receive light transmitted through the polarization selective optical element directly from the polarization selective optical element.