Vapor deposition of rare earth silicate environmental barrier coatings

The invention claimed is: 1. A vapor deposition method comprising: applying a first electron beam for a first relative residence time to vaporize a portion of a first target material comprising a rare earth oxide, wherein the first electron beam delivers a first amount of energy over the first relative residence time; applying a second electron beam for a second relative residence time to vaporize a portion of a second target material comprising silica, wherein the second electron beam delivers a second amount of energy over the second relative residence time, wherein the first amount of energy is between approximately 1.1 and approximately 2 times greater than the second amount of energy, and wherein the second target material is separate from the first target material; wherein the portion of the first target material and the portion of the second target material are deposited substantially simultaneously over a substrate to form a layer over the substrate. 2. The vapor deposition method of claim 1 , wherein the layer comprises a substantially nonporous microstructure. 3. The vapor deposition method of claim 1 , wherein the layer comprises a substantially homogeneous composition. 4. The vapor deposition method of claim 1 , wherein the first amount of energy is between approximately 1.33 and approximately 1.47 times greater than the second amount of energy. 5. The vapor deposition method of claim 1 , wherein applying the first electron beam and applying the second electron beam comprise applying an electron beam from a single energy source, the single energy source alternating between applying the first electron beam and the second electron beam. 6. The vapor deposition method of claim 1 , wherein the rare earth oxide is selected from the group consisting of an oxide of Gd, an oxide of Yb, and combinations thereof. 7. The vapor deposition method of claim 1 , wherein the layer comprises a first layer, and further comprising: applying a third electron beam to vaporize a portion of a third target material comprising a rare earth oxide, wherein the third electron beam delivers a third amount of energy; applying a fourth electron beam to vaporize a portion of a fourth target material comprising silica, wherein the fourth electron beam delivers a fourth amount of energy different from the third amount of energy, and the fourth target material is separate from the third target material; wherein the portion of the third target material and the portion of the fourth target material are deposited substantially simultaneously over the substrate to form a second layer over the substrate. 8. The vapor deposition method of claim 7 , wherein the second layer comprises a columnar microstructure. 9. The vapor deposition method of claim 8 , wherein the second layer is deposited over the first layer. 10. The vapor deposition method of claim 8 , wherein the first layer is deposited over the second layer. 11. The vapor deposition method of claim 8 , wherein the first target material is the same as the third target material, and the second target material is the same as the fourth target material. 12. The vapor deposition method of claim 1 , further comprising applying a third electron beam to vaporize a portion of a third target material, wherein the third electron beam delivers a third amount of energy, and wherein the portion of the third target material is deposited, substantially simultaneously with the portion of the first target material and the second target material, over the substrate to form the layer. 13. The vapor deposition method of claim 12 , wherein the third target material comprises alumina. 14. The vapor deposition method of claim 13 , wherein the layer comprises a substantially homogeneous composition. 15. The vapor deposition method of claim 1 , wherein the layer comprises at least 50 weight percent rare earth silicate, formed by combination of at least some of the rare earth oxide and at least some of the silica. 16. The vapor deposition method of claim 15 , wherein the layer comprises a first layer formed over the substrate and a second layer formed over the first layer, the first layer comprising a rare earth disilicate, the second layer comprising a rare earth monosilicate, and wherein an interface between the first layer and the second layer is distinct. 17. The vapor deposition method of claim 15 , wherein the layer comprises a first layer formed over the substrate and a second layer formed over the first layer, the first layer comprising a rare earth disilicate, the second layer comprising a rare earth monosilicate, and wherein an interface between the first layer and the second layer is a compositionally graded transition that is predominately rare earth disilicate adjacent the first layer and predominately rare earth monosilicate adjacent the second layer.