Reflective coating and coating process therefor

What is claimed: 1. A gas turbine engine component, comprising: a substrate; a ceramic coating comprising a thermal barrier material on the substrate; and an optically opaque oxidation resistant conforming reflective layer conforming to a porous microstructure of the ceramic coating, the conforming reflective layer comprising a platinum group metal on the thermal barrier material in an interconnected porosity of the ceramic coating, the optically opaque oxidation resistant conforming reflective layer having a melting point higher than a use temperature of the ceramic coating to reduce radiation heat transport of the ceramic coating, wherein the conforming reflective layer penetrates to a depth 20 times a depth of a gap opening of the porous microstructure. 2. The component as recited in claim 1 , wherein the conforming reflective layer is formed from a precious metal selected from the group consisting of platinum, platinum alloys, palladium, palladium alloys, rhodium, rhodium alloys, iridium, iridium alloys, osmium, osmium alloys, ruthenium, ruthenium alloys and mixtures thereof. 3. The component as recited in claim 1 , further comprising a bond coat on the substrate, the thermal barrier material on the bond coat. 4. The component as recited in claim 1 , wherein the conforming reflective layer penetrates to a depth of 100 microns or greater into the porous microstructure but does not physically make contact with the substrate. 5. The component as recited in claim 1 , wherein the conforming reflective layer penetrates to a depth from one-quarter to three-quarters the way down the porous microstructure to the substrate. 6. The component as recited in claim 1 , wherein the conforming reflective layer is at least 80 nm thick. 7. The component as recited in claim 1 , wherein the conforming reflective layer is 1000-2000 angstroms thick. 8. The component as recited in claim 1 , wherein the platinum group metal is a precious metal selected from the group consisting of platinum, platinum alloys and mixtures thereof. 9. A gas turbine engine component, comprising: a substrate; a ceramic coating comprising a thermal barrier material on the substrate; and an optically opaque oxidation resistant conforming reflective layer conforming to a porous microstructure of the ceramic coating, the conforming reflective layer comprising a platinum group metal on the thermal barrier material in an interconnected porosity of the ceramic coating, the optically opaque oxidation resistant conforming reflective layer having a melting point higher than a use temperature of the ceramic coating to reduce radiation heat transport of the ceramic coating, wherein the conforming reflective layer penetrates to a depth from one-quarter to three-quarters the way down the porous microstructure toward the substrate. 10. The component as recited in claim 9 , wherein the conforming reflective layer penetrates to a depth 20 times a depth of a gap opening of the porous microstructure. 11. The component as recited in claim 9 , wherein the conforming reflective layer is 1000-2000 angstroms thick. 12. The component as recited in claim 9 , wherein the platinum group metal is a precious metal selected from the group consisting of platinum, platinum alloys and mixtures thereof.