Display medium using emitting particles dispersed in a transparent host
First Claim
1. A two dimensional color image display system, comprising in combination:
- first particles containing dye doped plastics dispersed within a transparent display medium;
means for generating a first light beam having a first wavelength; and
means for exciting the first particles within the transparent display medium, wherein the first particles absorb the first light beam and form a first visible light color from the first particles being excited by the first light beam.
1 Assignment
0 Petitions
Accused Products
Abstract
Two and three dimensional color image displays. The displays include a display medium having a substantially uniform dispersion of red, green and blue visible light emitting particles sized between approximately 0.5 to approximately 50 microns therethrough. The particles can be dye doped polymethylmethacrylate(pmma) plastic, and the display medium can be pmma, acrylic plastic or glass. Other particles can be used such as rare earth doped crystals. The two dimensional display uses three laser sources each having different wavelengths that direct light beams to each of three different types of particle in the display medium. Light is absorbed by the particles which then become excited and emit visible fluorescence. Modulators, scanners and lens can be used to move and focus the laser beams to different pixels in order to form the two dimensional images having different visible colors.
122 Citations
18 Claims
-
1. A two dimensional color image display system, comprising in combination:
-
first particles containing dye doped plastics dispersed within a transparent display medium;
means for generating a first light beam having a first wavelength; and
means for exciting the first particles within the transparent display medium, wherein the first particles absorb the first light beam and form a first visible light color from the first particles being excited by the first light beam. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
second particles dispersed within the transparent display medium;
means for generating a second light beam having a second wavelength which is different from the first wavelength;
means for exciting the second particles within the transparent display medium, wherein the second particles absorb the second light beam and form a second visible light color from the second particles being excited by the second light beam, the second visible color being different from the first visible color.
-
-
3. The two dimensional color image display system of claim 2, further comprising:
means for moving the first light beam and the second light beam to excite different particles in different places in the display medium to form the two dimensional image in two colors.
-
4. The two dimensional color image display system of claim 2, wherein at least one of the first particles and the second particles include:
- dye doped plastics.
-
5. The two dimensional color image display system of claim 4, wherein the dye doped plastics include:
- polymethylmethacrylate(pmma).
-
6. The two dimensional color image display system of claim 2, wherein at least one of the first particles and the second particles are chosen from at least one of:
rare earth crystals, transition metal doped crystals, and rare earth doped glasses.
-
7. The two dimensional color image display system of claim 1, wherein the dye doped plastics include:
- polymethylmethacrylate(pmma).
-
8. The two dimensional color image display system of claim 1, wherein the first particles include:
- sizes of approximately 0.5 microns to approximately 50 microns each.
-
9. The two dimensional color image display system of claim 1, wherein the first particles are chosen from at least one of:
rare earth crystals, transition metal doped crystals, and rare earth doped glasses.
-
10. A two dimensional color image display system, comprising in combination:
-
first particles which include;
sodium yttrium fluoride(NaYF4) doped with rare earth family emitting ions dispersed within a transparent display medium;
means for generating a first light beam having a first wavelength; and
means for exciting the first particles within the transparent display medium, wherein the first particles absorb the first light beam and form a first visible light color from the first particles being excited by the first light beam. - View Dependent Claims (11, 12, 13)
Er(erbium), Tm(thulium), Ho(holmium) and Pr(praseodymium).
-
-
12. The two dimensional color image display system of claim 10, further comprising:
second particles in the display medium, wherein at least one of the first particles and the second particles include;
the sodium yttrium fluoride(NaYF4) doped with the rare earth family emitting ions.
-
13. The two dimensional color image display system of claim 12, wherein the rare earth family emitting ions are chosen from at least one of:
Er(erbium), Tm(thulium), Ho(holmium) and Pr(praseodymium).
-
14. A three dimensional color image display system, comprising in combination:
-
first particles dispersed within a transparent display medium wherein the first particles are selected from at least one of;
dye doped plastics and sodium yttrium fluoride(NaYF4) doped with rare earth family emitting ions;
means for generating a first light beam having a first wavelength;
means for generating a second light beam having a second wavelength different from the first wavelength; and
means for intersecting the first beam and the second beam at the first particles to excite a first visible color at the first particles within the transparent display medium. - View Dependent Claims (15, 16, 17, 18)
second particles dispersed within the transparent display medium;
means for generating a third light beam having a third wavelength;
means for generating a fourth light beam having a fourth wavelength being different from the third wavelength; and
means for intersecting the third light beam and the fourth light beam at the second particles to excite a second visible color at the second particles within the transparent display medium, the second visible color being different from the first visible color.
-
-
16. The three dimensional color image display system of claim 15, further comprising:
means for moving the intersecting beams to form the three dimensional image having different colors.
-
17. The three dimensional color image display system of claim 15, wherein the first particles include:
- sizes of approximately 0.5 microns to approximately 50 microns each.
-
18. The three dimensional color image display system of claim 14, wherein the dye doped plastics include polymethylmethacrylate(pmma).
Specification