Switchable bragg gratings for chromatic error correction of pancharatnam berry phase (PBP) components

What is claimed is: 1. A Pancharatnam Berry Phase (PBP) color corrected structure comprising: a plurality of switchable gratings that are each configured to have an inactive mode to reflect light of a specific color channel, of a set of color channels, and transmit light of other color channels in the set of color channels, wherein the specific color channel is different for each of the plurality of switchable gratings, and to have an active mode to transmit light that is inclusive of the set of color channels; and a plurality of PBP active elements that receive light output from at least one of the plurality of switchable gratings, and the plurality of PBP active elements are each configured to adjust light of a different color channel of the set of color channels by a same amount to output light corrected for chromatic aberration for the set of color channels. 2. The PBP color corrected structure of claim 1 , wherein: the plurality of switchable gratings comprises a plurality of electrically switchable Bragg gratings; and each electrically switchable Bragg grating is configured to reflect light of the specific color channel and transmit light of the other color channels when a voltage level below a defined threshold is applied to that electrically switchable Bragg grating. 3. The PBP color corrected structure of claim 1 , wherein: the plurality of PBP active elements comprises a plurality of PBP liquid crystal gratings; and each PBP liquid crystal grating is configured to adjust light of the different color channel by the same amount based on diffracting light of the different color channel by an angle common for the plurality of PBP liquid crystal gratings. 4. The PBP color corrected structure of claim 3 , wherein each PBP liquid crystal grating is configured to have a pitch of a unique length to diffract light of the different color channel by the angle common for the plurality of PBP liquid crystal gratings. 5. The PBP color corrected structure of claim 1 , wherein: the plurality of PBP active elements comprises a plurality of PBP liquid crystal lenses; and each PBP liquid crystal lens is configured to adjust light of the different color channel by the same amount based on focusing light of the different color channel to a focus common for the plurality of PBP liquid crystal lenses. 6. The PBP color corrected structure of claim 5 , wherein each PBP liquid crystal lens is configured to have a unique liquid crystal rotation speed to focus light of the different color channel to the focus common for the plurality of PBP liquid crystal lenses. 7. The PBP color corrected structure of claim 1 , wherein: the plurality of switchable gratings are stacked into a structure of the stacked switchable gratings; the plurality of PBP active elements are stacked into a structure of the stacked PBP active elements; and the structure of the stacked switchable gratings is placed in front of the structure of the stacked PBP active elements. 8. The PBP color corrected structure of claim 1 , wherein: each switchable grating is placed directly in front of a different PBP active element from the plurality of PBP active elements to form an active component of a plurality of active components configured to adjust light of the different color channel by the same amount for the plurality of active components; and the plurality of active components are stacked to form the PBP color corrected structure. 9. The PBP color corrected structure of claim 1 , wherein the PBP color corrected structure comprising the plurality of switchable gratings and the plurality of PBP active elements is part of an optical assembly of a head-mounted display (HMD). 10. A method comprising: for a plurality of time instants, providing light that is inclusive of a set of color channels to a Pancharatnam Berry Phase (PBP) color corrected structure comprising a plurality of switchable gratings and a plurality of PBP active elements, wherein the plurality of switchable gratings are each configured to have an inactive mode to reflect light of a specific color channel, of the set of color channels, and transmit light of other color channels in the set of color channels, wherein the specific color channel is different for each of the plurality of switchable gratings, and to have an active mode to transmit light that is inclusive of the set of color channels, and the plurality of PBP active elements receive light output from at least one of the plurality of switchable gratings, and the plurality of PBP active elements are each configured to adjust light of a different color channel of the set of color channels by a same amount to output light corrected for chromatic aberration for the set of color channels; for each time instant, deactivating a different subset of the switchable gratings and activating a different one of the switchable gratings to transmit light of the different color channel through the plurality of switchable gratings; and for each time instant, using a specific PBP active element of the plurality of PBP active elements to adjust light of the different color channel by the same amount. 11. The method of claim 10 , wherein: deactivating the subset of the switchable gratings comprises applying a voltage below a defined threshold to each switchable grating in the subset; and activating that one switchable grating comprises applying a voltage above the defined threshold to that one switchable grating. 12. The method of claim 10 , wherein the plurality of PBP active elements comprises a plurality of PBP liquid crystal gratings, and, the method further comprising using a different one of the PBP liquid crystal gratings to adjust light of the different color channel by the same amount based on diffracting light of the different color channel by an angle common for the plurality of PBP liquid crystal gratings. 13. The method of claim 10 , wherein the plurality of PBP active elements comprises a plurality of PBP liquid crystal lenses, and, the method further comprising using a different one of the PBP liquid crystal lenses to adjust light of the different color channel by the same amount based on focusing light of the different color channel to a focus common for the plurality of PBP liquid crystal lenses. 14. The method of claim 10 , wherein the PBP color corrected structure comprising the plurality of switchable gratings and the plurality of PBP active elements is part of an optical assembly of a head-mounted display (HMD). 15. A head-mounted display (HMD) comprising: an electronic display configured to emit image light that is inclusive of a set of color channels; an optical assembly configured to: optically correct for chromatic aberration for the set of color channels using a Pancharatnam Berry Phase (PBP) color corrected structure that outputs image light corrected for chromatic aberration for the set of color channels in accordance with color correction instructions, the PBP color corrected structure comprises: a plurality of switchable gratings that are each configured to have an inactive mode to reflect image light of a specific color channel, of the set of color channels, and transmit image light of other color channels in the set of color channels, wherein the specific color channel is different for each of the plurality of switchable gratings, and to have an active mode to transmit light that is inclusive of the set of color channels, and a plurality of PBP active elements that receive a portion of the image light output from at least one of the plurality of switchable gratings, and the plurality of PBP active elements are