Optical converter

What is claimed is: 1. An optical converter comprising: a ceramic element that is fluorescent so that light of a first wavelength is absorbed in the ceramic element and fluorescent light having longer wavelength is emitted, wherein the ceramic element comprises pores that are spatially irregularly distributed therein, the pores having a distribution that is inhomogeneous so that a radial distribution function of pore locations deviates from unity and has a maximum, at a characteristic distance, of at least 1.2 and less than 2. 2. The optical converter of claim 1 , wherein that the radial distribution function converges to unity with increasing distances higher than the characteristic distance. 3. The optical converter of claim 1 , wherein the radial distribution function, below the characteristic distance, diminishes towards shorter distances and drops below unity. 4. The optical converter of claim 1 , wherein the maximum range is less than 2. 5. An optical converter comprising: a ceramic element that is fluorescent so that light of a first wavelength is absorbed in the ceramic element and fluorescent light having longer wavelength is emitted, wherein the ceramic element comprises pores that are spatially irregularly distributed therein, the pores having a distribution that is inhomogeneous so that a radial distribution function of pore locations deviates from unity and has a maximum range at a characteristic distance, wherein the characteristic distance is in a range from 1.0 μm to 3 μm. 6. The optical converter of claim 1 , wherein the radial distribution has a modal value of between 0.5 μm to 1.2 μm. 7. The optical converter of claim 1 , wherein the radial distribution has a modal value of between 0.6 μm to 0.9 μm. 8. The optical converter of claim 1 , wherein that the ceramic element is a material selected from a group consisting of a doped garnet phosphor, a cerium doped yttrium-aluminium garnet (Ce:YAG), a cerium doped a lutetium-aluminium garnet (Ce:LuAG), and a cerium doped yttrium/gadolinium garnet (Ce:Gd/YAG). 9. The optical converter of claim 1 , wherein the ceramic element has a density of below 98 percent of a theoretical solid state density. 10. The optical converter of claim 1 , wherein that the ceramic element absorbs blue light as light of a first wavelength and emits yellow or green light as the fluorescent light having the longer wavelength. 11. The optical converter of claim 1 , wherein the ceramic element has a turbidity value for light having a wavelength of 570 nm that is larger than the turbidity value for light having a wavelength of 450 nm. 12. The optical converter of claim 1 , further comprising a disc shaped carrier, wherein the ceramic element is a disc or ring shaped and is mounted on the so disc shaped carrier as to form a converter wheel. 13. The optical converter of claim 1 , wherein the ceramic element has a standard deviation of cx-values and cy-values of emitted light that is less than 0.005. 14. The optical converter of claim 1 , wherein the ceramic element has a standard deviation of efficacy, measured in lm/W, that is less than 4 lm/W. 15. A light source comprising: an optical converter having a ceramic element; a mount on which the ceramic element is fixed, wherein the mount is static or adapted to provide a rotational or reciprocating movement to the ceramic element; and a source light emitter arranged to direct source light onto the ceramic element so that the optical converter emits secondary light having a longer wavelength than the source light, wherein the ceramic element comprises pores that are spatially irregularly distributed therein, the pores having a distribution that is inhomogeneous so that a radial distribution function of pore locations deviates from unity and has a maximum, at a characteristic distance, of at least 1.2 and less than 2.