Local dimming in a device

What is claimed is: 1. An optical assembly, comprising: an eyeward side and a backside, wherein the optical assembly is configured to receive visible scene light at the backside of the optical assembly and to direct the visible scene light on an optical path toward the eyeward side; a dimming layer disposed on the optical path between the eyeward side and the backside, wherein the dimming layer includes a photochromic material that is configured to darken in response to exposure to a range of light wavelengths; and an activation layer disposed on the optical path, adjacent to the dimming layer, wherein the activation layer includes an in-field dimmer device that is configured to selectively emit an activation light in a direction away from a direction of incoming visible scene light and towards the dimming layer and within the range of light wavelengths to activate a darkening of a region of the dimming layer to dim the visible scene light within the region. 2. The optical assembly of claim 1 , wherein the in-field dimmer device comprises: an optical waveguide; and an extraction feature optically coupled to the optical waveguide, wherein the optical waveguide is configured to direct the activation light from a light source to the extraction feature, and wherein the extraction feature is configured to emit the activation light towards the dimming layer. 3. The optical assembly of claim 2 , wherein the extraction feature is configured to emit the activation light such that the region of the dimming layer that is darkened is circularly-shaped or rectangularly-shaped. 4. The optical assembly of claim 1 , wherein the in-field dimmer device comprises: an optical waveguide configured to receive the activation light from a light source to leak the activation light from the optical waveguide towards the dimming layer to darken the region. 5. The optical assembly of claim 1 , further comprising: a backside filter disposed on the optical path between the backside of the optical assembly and the dimming layer, wherein the backside filter is configured to block the range of light wavelengths and to pass the visible scene light. 6. The optical assembly of claim 5 , wherein the backside filter is configured to be selectively switched between a first state to block the range of light wavelengths and a second state to pass the range of light wavelengths to activate darkening of the dimming layer across an entire field of view of the optical assembly. 7. The optical assembly of claim 1 , further comprising: an eyeward side filter disposed on the optical path between the eyeward side of the optical assembly and the dimming layer, wherein the eyeward side filter is configured to block the range of light wavelengths and to pass the visible scene light. 8. The optical assembly of claim 1 , wherein the activation layer is spaced apart from the dimming layer by a gap to increase a beam width of the activation light and of the region that is darkened. 9. The optical assembly of claim 1 , further comprising an additional dimming layer that includes photochromic material, wherein the activation layer is disposed on the optical path between the dimming layer and the additional dimming layer, and wherein the in-field dimmer device is configured to emit the activation light towards the dimming layer and towards the additional dimming layer. 10. The optical assembly of claim 1 , wherein the activation light comprises non-visible light, ultraviolet light, infrared light, or violet light. 11. The optical assembly of claim 1 , further comprising: a display layer disposed on the optical path between the eyeward side of the optical assembly and the dimming layer, wherein the display layer is configured to direct visible display light toward the eyeward side. 12. A head-mounted device, comprising: a display layer configured to direct visible display light toward an eyeward side of the head-mounted device to present a virtual graphic, and wherein the display layer is configured to pass visible scene light received at a backside of the head-mounted device; a dimming layer disposed on an optical path between the display layer and the backside, wherein the dimming layer includes a photochromic material that is configured to darken in response to exposure to a range of light wavelengths; and a computing device configured to activate a darkening of a region in the dimming layer to dim the visible scene light within the region in response to determining that the visible scene light will interfere with a visibility of the virtual graphic, wherein the computing device is configured to determine that the visible scene light in the region will interfere with the visibility of the virtual graphic by determining a contrast between the visible scene light and the visible display light within the region or by comparing a color of the visible scene light with a color of the visible display light. 13. The head-mounted device of claim 12 , further comprising an activation layer disposed on the optical path, adjacent to the dimming layer, wherein the activation layer includes an in-field dimmer that is configured to selectively emit an activation light within the range of light wavelengths. 14. The head-mounted device of claim 13 , wherein the computing device is configured to control the in-field dimmer to vary an amount of the darkening of the region in the dimming layer. 15. An optical assembly, comprising: a dimming layer that includes a photochromic material configured to darken in response to exposure to a range of light wavelengths; a first filter configured to block the range of light wavelengths; and a second filter configured to block the range of light wavelengths, wherein the dimming layer is disposed between the first filter and the second filter; and an activation layer disposed adjacent to the dimming layer, between the first filter and the second filter, wherein the activation layer includes a plurality of in-field dimmer devices, wherein each in-field dimmer device of the plurality of in-field dimmer devices to selectively emit an activation light towards the dimming layer and within the range of light wavelengths to activate a darkening of a respective region of the dimming layer to dim visible scene light. 16. The optical assembly of claim 15 , wherein each in-field dimmer of the plurality of in-field dimmers is individually-controllable to selectively emit the activation light to dim the visible scene light. 17. The optical assembly of claim 15 , wherein the range of light wavelengths comprises non-visible light, ultraviolet light, infrared light, or violet light.