Optical system for head-mounted display

What is claimed is: 1. A head-mounted display configured to display images viewable by a user, comprising: a display system including an array of pixels configured to produce the images; a lens system through which the images are viewable, wherein the display system and the lens system are separated by a distance; a sensor that produces sensor data, wherein the sensor comprises a motion sensor; and control circuitry that adjusts the distance based on the sensor data to protect the display system, wherein the control circuitry increases the distance when the sensor data from the motion sensor indicates that the head-mounted display is in freefall. 2. The head-mounted display defined in claim 1 wherein the control circuitry decreases the distance when the sensor data from the motion sensor indicates that the head-mounted display has been placed on the user's head. 3. The head-mounted display defined in claim 1 wherein the control circuitry increases the distance when the sensor data from the motion sensor indicates that the head-mounted display has been removed from the user's head. 4. The head-mounted display defined in claim 1 wherein the sensor comprises a camera. 5. The head-mounted display defined in claim 4 wherein the control circuitry increases the distance when the sensor data from the camera indicates that the head-mounted display has been removed from the user's head. 6. The head-mounted display defined in claim 4 wherein the control circuitry decreases the distance when the sensor data from the camera indicates that the head-mounted display has been placed on the user's head. 7. The head-mounted display defined in claim 4 wherein the control circuitry increases the distance when the sensor data from the camera indicates that an external object is approaching the head-mounted display. 8. The head-mounted display defined in claim 1 further comprising an actuator, wherein the control circuitry uses the actuator to adjust the distance between the display system and the lens system. 9. The head-mounted display defined in claim 8 wherein the actuator moves the display system while the lens system remains fixed. 10. The head-mounted display defined in claim 8 wherein the actuator moves the lens system while the display system remains fixed. 11. The head-mounted display defined in claim 8 wherein the lens system comprises at least first and second lenses, wherein the second lens is interposed between the first lens and the display system, and wherein the actuator moves the second lens while the first lens and the display system remain fixed. 12. The head-mounted display defined in claim 1 further comprising a housing having an opening through which fluid passes to adjust the distance between the display system and the lens system. 13. A head-mounted display configured to display images viewable by a user and configured to be powered on and off, comprising: a display system including an array of pixels configured to produce the images; a lens system through which the images are viewable, wherein the lens system and the display system are separated by a distance; an actuator; and control circuitry that uses the actuator to increase the distance when the head-mounted display is powered off and decrease the distance when the head-mounted display is powered on, and wherein the display system and the lens system overlap each other when the head-mounted display is powered off and when the head-mounted display is powered on. 14. The head-mounted display defined in claim 13 wherein the lens system has an optical axis and wherein the control circuitry uses the actuator to move at least one of the display system and the lens system along the optical axis. 15. The head-mounted display defined in claim 13 wherein the lens system has an apex and wherein the control circuitry uses the actuator to rotate the display system away from the apex to increase the distance. 16. A head-mounted display configured to display images viewable by a user, wherein the head-mounted display is operable in an active use mode and a protected mode, comprising: a display system including an array of pixels configured to produce the images; a lens system through which the images are viewable; an accelerometer that produces motion data; and control circuitry that determines whether to operate the head-mounted display in the active use mode or the protected mode based on the motion data, wherein the display system is protected from collisions with the lens system when the head-mounted display is in the protected mode. 17. The head-mounted display defined in claim 16 further comprising a protective layer, wherein the control circuitry deploys the protective layer between the display system and the lens system when the head-mounted display is in the protected mode. 18. The head-mounted display defined in claim 16 further comprising an actuator, wherein the control circuitry uses the actuator to increase a distance between the display system and the lens system when the head-mounted display is in the protected mode.