Ceramic wavelength converter having a high reflectivity reflector

What is claimed is: 1. A ceramic wavelength converter having a high reflectivity reflector, the ceramic wavelength converter being capable of converting a primary light into a secondary light, the reflector comprising a reflective metal layer and a dielectric buffer layer between the ceramic wavelength converter and the reflective metal layer, the buffer layer being non-absorbing and non-wavelength selective with respect to the secondary light and having an index of refraction that is less than an index of refraction of the ceramic wavelength converter, wherein the reflector has a quenching layer between the buffer layer and the reflective metal layer, the quenching layer having an index of refraction that is greater than the index of refraction of the buffer layer. 2. The ceramic wavelength converter of claim 1 wherein the reflectivity of the reflector is at least 80% with respect to the secondary light. 3. The ceramic wavelength converter of claim 1 wherein the reflectivity of the reflector is at least 85% with respect to the secondary light. 4. The ceramic wavelength converter of claim 1 wherein the reflectivity of the reflector is at least 95% with respect to the secondary light. 5. The ceramic wavelength converter of claim 1 where the converter comprises at least one phosphor selected from (Y,Lu,Gd) 3 Al 5 O 12 :Ce and (Ba,Ca,Sr)Si 2 O 2 N 2 :Eu. 6. The ceramic wavelength converter of claim 1 wherein the converter is in the form of a flat plate having a thickness greater than a scattering length of the secondary light in the converter. 7. The ceramic wavelength converter of claim 1 wherein the reflective metal layer is optically thick with respect to the secondary light. 8. The ceramic wavelength converter of claim 1 wherein the buffer layer has a thickness of at least one secondary light wavelength. 9. The ceramic wavelength converter of claim 1 wherein the refractive index of the buffer layer is at least 10% lower than the refractive index of the ceramic wavelength converter. 10. The ceramic wavelength converter of claim 1 wherein the refractive index of the buffer layer is at least 20% lower than the refractive index of the ceramic wavelength converter. 11. The ceramic wavelength converter of claim 1 wherein the ceramic wavelength converter is comprised of YAG:Ce and the buffer layer is SiO 2 . 12. The ceramic wavelength converter of claim 11 wherein the buffer layer has a thickness of less than 200 W/m divided by an incident power of the primary light per unit area, E, expressed as W/m 2 . 13. The ceramic wavelength converter of claim 1 wherein the buffer layer has a thickness of less than 10 μm. 14. The ceramic wavelength converter of claim 1 wherein the buffer layer has a thickness of less than 5 μm. 15. The ceramic wavelength converter of claim 11 wherein the buffer layer has a thickness, l b , defined by ℓ b > - 0.27 ⁢ λ 0 K x 2 - 0.69 . 16. The ceramic wavelength converter of claim 1 wherein the quenching layer has an index of refraction greater than or equal to 1.8. 17. The ceramic wavelength converter of claim 1 wherein the quenching layer is comprised of a dielectric material selected from Y 2 O 3 , HfO 2 , ZrO 2 , Nb 2 O 5 , and TiO 2 (rutile phase). 18. The ceramic wavelength converter of claim 1 wherein the quenching layer has a thickness such that secondary light reflected by the reflective metal layer is in phase with secondary light reflected at an interface between the buffer layer and the quenching layer. 19. The ceramic wavelength converter of claim 1 wherein the buffer layer is comprised of SiO 2 and the quenching layer is comprised of Y 2 O 3 . 20. The ceramic wavelength converter of claim 19 wherein the ceramic wavelength converter is comprised of YAG:Ce. 21. The ceramic wavelength converter of claim 20 wherein the quenching layer has a thickness, l q , defined by ℓ q > 0.09 ⁢ λ 0 K x ⁢ - ⁢ SPP 2 - 1.11 . 22. A ceramic wavelength converter having a high reflectivity reflector, the ceramic wavelength converter comprising a (Y,Lu,Gd) 3 Al 5 O 12 :Ce phosphor, the reflector comprising a reflective silver metal layer and a dielectric SiO 2 buffer layer between the ceramic wavelength converter and the reflective silver metal layer, the buffer layer having a thickness of less than 10 μm, the phosphor configured to convert a primary light to a secondary light, the buffer layer non-wavelength selective with respect to the secondary light, wherein the reflector has a Y 2 O 3 quenching layer between the buffer layer and the reflective silver metal layer. 23. The ceramic wavelength converter of claim 22 wherein the buffer layer has a thickness of less than 5 μm. 24. The ceramic wavelength converter of claim 22 wherein the quenching layer has a thickness of 50 nm.