Sensing with liquid crystal polarization holograms and metasurface

What is claimed is: 1. An image sensor comprising: imaging pixels including a first subpixel configured to sense image light and a second subpixel configured to sense the image light; and a patterned liquid crystal polarization hologram (LCPH) layer having microlens regions disposed over the imaging pixels, wherein the microlens regions are configured to focus the image light to the first subpixel and the second subpixel of the imaging pixels, wherein liquid crystals in the patterned LCPH layer are doped to: pass a first wavelength band of the image light to the first subpixel and not the second subpixel; and pass a second wavelength band of the image light to the second subpixel and not the first subpixel. 2. The image sensor of claim 1 , wherein the microlens regions have a one-to-one correspondence with subpixels of the imaging pixels. 3. The image sensor of claim 1 , wherein the microlens regions have a one-to-one correspondence with the imaging pixels. 4. The image sensor of claim 1 , wherein the microlens regions are rectangular. 5. The image sensor of claim 1 , wherein the microlens regions of the LCPH layer have a longest dimension of less than four microns wide. 6. An image sensor comprising: imaging pixels including a first subpixel configured to sense image light and a second subpixel configured to sense the image light; and a metasurface lens layer having microlens regions disposed over the imaging pixels, wherein the microlens regions are configured to focus the image light to the first subpixel and the second subpixel of the imaging pixels, and wherein nanostructures in the metasurface lens layer are configured to pass a first polarization orientation to the imaging pixels and reject a second polarization orientation from becoming incident on the imaging pixels, the first polarization orientation different from the second polarization orientation. 7. The image sensor of claim 6 , wherein the nanostructures in the metasurface lens layer are configured to: pass a first wavelength band of the image light to the first subpixel and not the second subpixel; and pass a second wavelength band of the image light to the second subpixel and not the first subpixel. 8. The image sensor of claim 6 , wherein the metasurface lens layer includes non-symmetric nanostructures. 9. The image sensor of claim 6 , wherein the metasurface lens layer is polarization-dependent. 10. The image sensor of claim 6 , wherein nanostructures of the metasurface lens layer are formed of at least one of silicon, silicon-nitride, or titanium-oxide. 11. The image sensor of claim 6 , wherein the microlens regions have a one-to-one correspondence with subpixels of the imaging pixels. 12. The image sensor of claim 6 , wherein the microlens regions have a one-to-one correspondence with the imaging pixels. 13. The image sensor of claim 6 , wherein the microlens regions are rectangular. 14. An image sensor comprising: imaging pixels including a first subpixel configured to sense image light and a second subpixel configured to sense the image light; a patterned liquid crystal polarization hologram (LCPH) layer having microlens regions disposed over the imaging pixels, wherein the microlens regions are configured to focus the image light to the first subpixel and the second subpixel of the imaging pixels; and a wavelength filtering layer disposed between a semiconductor layer of the imaging pixels and the patterned LCPH layer. 15. An image sensor comprising: imaging pixels including a first subpixel configured to sense image light and a second subpixel configured to sense the image light; and a patterned liquid crystal polarization hologram (LCPH) layer having microlens regions disposed over the imaging pixels, wherein the microlens regions are configured to focus the image light to the first subpixel and the second subpixel of the imaging pixels, and wherein the patterned LCPH layer includes a polarized volume hologram (PVH) design. 16. An image sensor comprising: imaging pixels including a first subpixel configured to sense image light and a second subpixel configured to sense the image light; and a metasurface lens layer having microlens regions disposed over the imaging pixels, wherein the microlens regions are configured to focus the image light to the first subpixel and the second subpixel of the imaging pixels, and wherein nanostructures of the metasurface lens layer are formed of at least one of silicon, silicon-nitride, or titanium-oxide.