Solid-state lamps with omnidirectional emission patterns

What is claimed: 1. A lamp comprising: a thermally conductive body; at least one solid-state excitation source mounted in thermal communication with the body; a photoluminescence component containing a photoluminescence material, wherein the component is hollow and encloses the at least one excitation source; and a light transmissive cover containing a light diffusive material, wherein the cover encloses the photoluminescence component and comprises a plurality of areas having different diffusivities, wherein the plurality of areas comprises a first area and a second area, and the first area corresponds to a first diffusivity and the second area corresponds to a second diffusivity, and wherein the first diffusivity is different from the second diffusivity. 2. The lamp of claim 1 , wherein the first and second areas have differing quantities of a light diffusive material per unit area. 3. The lamp of claim 2 , wherein the differing quantities of the light diffusive material per unit area is controlled by at least one of: configuring a solid loading of the light diffusive material; configuring a thickness of the cover containing the light diffusive material; and configuring a thickness for a layer containing the light diffusive material. 4. The lamp of claim 1 , wherein the areas comprise distinct areas of different diffusivity. 5. The lamp of claim 1 , wherein the plurality of areas corresponds to at least one portion of continuously grading in terms of diffusivity. 6. The lamp of claim 1 , wherein the light diffusive material is incorporated into the material comprising the cover. 7. The lamp of claim 6 , wherein the thickness of the cover defines the diffusivity in each area. 8. The lamp of claim 1 , wherein the light diffusive material comprises a layer on an inner or outer surface of the cover. 9. The lamp of claim 8 , wherein the thickness of the layer defines the diffusivity in each area. 10. The lamp of claim 1 , wherein the photoluminescence component comprises at least a part which is generally dome-shaped. 11. A lamp comprising: a thermally conductive body; at least one solid-state excitation source mounted in thermal communication with the body; a photoluminescence component containing a photoluminescence material, wherein the component is hollow and encloses the at least one excitation source; and a light transmissive cover containing a light diffusive material, wherein the cover encloses the photoluminescence component and diffusivity of the cover is greatest at the top of the cover and decreases towards the bottom of the cover. 12. The lamp of claim 11 , wherein the diffusivity of the cover depends on differing quantities of a light diffusive material per unit area. 13. The lamp of claim 12 , wherein the differing quantities of the light diffusive material per unit area is controlled by at least one of: configuring a solid loading of the light diffusive material; configuring a thickness of the cover containing the light diffusive material; and configuring a thickness for a layer containing the light diffusive material. 14. The lamp of claim 11 , wherein the light diffusive material is incorporated into the material comprising the cover. 15. The lamp of claim 14 , wherein the thickness of the cover varies from the top to the bottom of the cover. 16. The lamp of claim 15 , wherein at least a portion of the thickness of the cover varies continuously. 17. The lamp of claim 15 , wherein the thickness of the cover varies in step-wise changes. 18. The lamp of claim 17 , wherein the thickness of the cover between step-wise changes is substantially constant. 19. The lamp of claim 11 , wherein the light diffusive material comprises a layer on an inner or outer surface of the cover. 20. The lamp of claim 11 , wherein the photoluminescence component comprises at least a part which is generally dome-shaped.