Methods and apparatus for transparent display using scattering nanoparticles

What is claimed is: 1. A display comprising: at least one light source to emit light at a first wavelength and light at a second wavelength; and a substantially transparent substrate, in optical communication with the at least one light source, to scatter the light at the first wavelength and the light at the second wavelength and to transmit ambient light at other wavelengths in the visible spectrum. 2. The display of claim 1 , wherein the at least one light source comprises: a first spectrally coherent light source to emit the light at the first wavelength; and a second spectrally coherent light source to emit the light at the second wavelength. 3. The display of claim 1 , further comprising: a beam-steering element, in optical communication with the at least one light source and the substantially transparent substrate, to scan the light at the first wavelength across at least a portion of the substantially transparent substrate. 4. The display of claim 1 , further comprising: a zoom lens, in optical communication with the at least one light source and the substantially transparent substrate, to vary a spot size formed by the light at the first wavelength on the substantially transparent substrate. 5. The display of claim 1 , wherein the at least one light source is further configured to modulate an intensity of the light at the first wavelength at a rate faster than an integration period of an eye. 6. The display of claim 1 , wherein the substantially transparent substrate comprises a flexible transparent material. 7. The display of claim 1 , wherein the substantially transparent substrate is configured to scatter at least 90% of the light at the first wavelength. 8. The display of claim 1 , wherein the substantially transparent substrate is configured to transmit at least 90% of the ambient light at other wavelengths in the visible spectrum. 9. A method of operating a display, the method comprising: scattering, with a substantially transparent substrate, light at a first wavelength and light at a second wavelength; and transmitting, with the substantially transparent substrate, ambient light at other wavelengths in the visible spectrum while scattering the light at the first wavelength and the light at the second wavelength. 10. The method of claim 9 , further comprising: emitting the light at the first wavelength from a first spectrally coherent light source; and emitting the light at the second wavelength from a second spectrally coherent light source. 11. The method of claim 9 , further comprising: scanning the light at the first wavelength across at least a portion of the substantially transparent substrate. 12. The method of claim 9 , further comprising: varying a spot size formed by the light at the first wavelength on the substantially transparent substrate. 13. The method of claim 9 , further comprising: modulating an intensity of the light at the first wavelength at a rate faster than an integration period of an eye. 14. The method of claim 9 , wherein scattering the first beam of light comprises scattering at least 90% of the first beam of light. 15. The method of claim 9 , wherein transmitting the ambient light comprises transmitting at least 90% of the ambient light at other wavelengths in the visible spectrum. 16. A display comprising: at least one light source to emit spectrally coherent red, green, and blue light; and a substantially transparent substrate, in optical communication with the at least one light source, to scatter the spectrally coherent red, green, and blue light in proportions based on a human eye's sensitivity to different colors and to transmit ambient light at other wavelengths in the visible spectrum. 17. The display of claim 16 , wherein the substantially transparent substrate comprises a flexible transparent material. 18. The display of claim 16 , further comprising: at least one beam-steering element, in optical communication with the at least one light source and the substantially transparent substrate, to scan a beam of light across at least a portion of the substantially transparent substrate, the beam of light comprising at least one color of the spectrally coherent red, green, and blue light. 19. The display of claim 16 , further comprising: a zoom lens, in optical communication with the at least one light source and the substantially transparent substrate, to vary a spot size formed by the beam of light on the substantially transparent substrate. 20. The display of claim 16 , wherein the at least one light source is further configured to modulate an intensity of the beam of light at a rate faster than an integration period of an eye.