Diffuse cholesteric reflector

What is claimed is: 1. A diffuse reflector comprising: a first layer of cholesteric material that reflects a first wavelength of light; and non-cholesteric material particles in the first layer at a concentration such that the particles create a plurality of cholesteric domains in the first layer that reflect light having the first wavelength in different directions, wherein the particles are treated with an organic material so as to decrease aggregation of the particles, to promote dispersion of the particles within the cholesteric material, and to disrupt a self-ordering nature of the cholesteric material to increase a number and an orientation randomness of the cholesteric domains, thereby increasing optical diffusion of the cholesteric material. 2. The diffuse reflector of claim 1 , further comprising: a second layer of cholesteric material that overlies the first layer and reflects the first wavelength of light; and particles in the second layer at a concentration such that the particles in the second layer create a plurality of cholesteric domains in the second layer that reflect light of the first wavelength or of a second wavelength. 3. The diffuse reflector of claim 2 , wherein the cholesteric material in the second layer has a handedness that is opposite to a handedness of the cholesteric material in the first layer. 4. The diffuse reflector of claim 2 , further comprising a half-wave plate between the first layer and the second layer. 5. The diffuse reflector of claim 1 , further comprising a second layer of a birefringent polymer material that is formed overlying the first layer. 6. The diffuse reflector of claim 1 , wherein the particles have a size smaller than the first wavelength. 7. The diffuse reflector of claim 1 , wherein the particles reflect the first wavelength of light. 8. The diffuse reflector of claim 1 , wherein the particles reflect a second wavelength of light. 9. The diffuse reflector of claim 1 , further comprising: a textured substrate on which the first layer is formed, wherein the cholesteric domains inhibit smoothing of distortions created by a texture of the textured substrate resulting from self-ordering of the cholesteric material on the textured substrate. 10. A process for fabricating a diffuse reflector, comprising: combining non-cholesteric material particles in a solution containing a cholesteric material; depositing the solution on a surface; and processing the solution to form a film through a process during which the particles disrupt alignment of mesogens in the solution and nucleate defects that propagate through the film formed from the solution such that the film reflects light in a first wavelength in different directions, wherein the particles are treated with an organic material so as to decrease aggregation of the particles, to promote dispersion of the particles within the cholesteric material, and to disrupt a self-ordering nature of the cholesteric material to increase a number and an orientation randomness of the cholesteric domains, thereby increasing optical diffusion of the cholesteric material. 11. The process of claim 10 , further comprising treating the surface before depositing the solution to provide a base alignment of the cholesteric material. 12. The process of claim 10 , further comprising using one or more solution coating process to form one or more polymer layers on the film. 13. The process of claim 10 , wherein the cholesteric material forms a helical structure that reflects the first wavelength of light. 14. The process of claim 13 , wherein the particles have a size smaller than the first wavelength. 15. The process of claim 13 , wherein the particles reflect a second wavelength of light. 16. The process of claim 10 , further comprising: applying the film on a textured substrate, wherein the defects that propagate through the film inhibit smoothing of distortions created by a texture of the textured substrate resulting from self-ordering of the cholesteric material on the textured substrate.