Window having active transparency control

The invention claimed is: 1. An active, transparency-controlled window comprising at least one layer of a material that is transparent to at least selected wavelengths of light, at least one layer of photochromic material formed as an integral part of the window in the path of light passing through said layer of transparent material and having a transparency, to said at least selected wavelengths of light, that can be controllably altered by an activating light, said photochromic material being applied to a glass layer that serves as a waveguide for said activating light and the amount of said photochromic material is graded with a concentration that increases with the distance from a light source, to provide a substantially uniform reduction of impinging light across the window, and a controllable source of light that activates said photochromic material to controllably alter the transparency of said photochromic material to said at least selected wavelengths of light, said light from said controllable source being transmitted along a path transverse to the path of light passing through said window. 2. The active, transparency-controlled window of claim 1 in which said material that is transparent to at least selected wavelengths of light is made of a material selected from the group consisting of glass and plastic. 3. The active, transparency-controlled window of claim 1 in which said controllable light source directs light into said photochromic material, and alters the transparency of said window by altering the transparency of said at least one layer of photochromic material by adjusting the strength of said light directed into said photochromic material from said controllable light source. 4. The active, transparency-controlled window of claim 1 in which said controllable light source directs light into said photochromic material through at least one edge of said window. 5. The active, transparency-controlled window of claim 1 in which said photochromic material is sandwiched between two layers of said material that is transparent to at least selected wavelengths of light. 6. The active, transparency-controlled window of claim 5 in which said two layers of said material that is transparent to at least selected wavelengths of light include dedicated coatings to provide a waveguide for said activating light, to protect an observer's eyes from said activating light. 7. The active, transparency-controlled window of claim 5 in which said two layers of said material that is transparent to at least selected wavelengths of light have indices of refraction that are (1) substantially the same as or lower than the index of refraction of said photochromic material, and (2) higher than the ambient environment of said window, to provide a waveguide for said activating light and efficient penetration of said activating light into said photochromic material. 8. The active, transparency-controlled window of claim 1 in which said photochromic material is activatable by light within a predetermined range of wavelengths, and said controllable light source produces light having a wavelength within said predetermined range. 9. The active, transparency-controlled window of claim 8 in which said predetermined range of wavelengths is in the ultraviolet region of the spectrum or in the 400 to 500 nanometer wavelength region. 10. The active, transparency-controlled window of claim 1 in which said controllable light source includes at least one light emitting diode or diode laser. 11. The active, transparency-controlled window of claim 10 in which said controllable light source includes at least one lens or lens array to provide the light source with a prescribed divergence angle. 12. The active, transparency-controlled window of claim 10 in which said controllable light source includes at least one single-optical-fiber or multiple-optical-fiber device. 13. The active, transparency-controlled window of claim 1 in which said at least one layer of photochromic material includes multiple layers of photochromic material having different colors and separated by glass layers that serve as waveguides to filter out of part of the spectrum. 14. The active, transparency-controlled window of claim 1 in which said controllable light source is controlled to produce a preselected opacity level from the combined activation of said photochromic material by (1) ambient light and (2) light from said controllable light source. 15. The active, transparency-controlled window of claim 1 in which said photochromic material is covered on one side with a layer of a material that blocks said activating light so that said photochromic material remains transparent when activating light arrives from said one side, and changes transparency when activating light arrives from the opposite side. 16. The active, transparency-controlled window of claim 15 in which said photochromic material becomes substantially opaque when activating light arrives from said opposite side. 17. The active, transparency-controlled window of claim 1 in which said photochromic material is applied to a glass layer that serves as a waveguide for said activating light and is tapered to provide substantially even illumination of said layer of photochromic material.