Lift pin assembly

What is claimed is: 1 . A lift pin assembly comprising: a lift pin guide; a purge cylinder disposed adjacent the lift pin guide, the lift pin guide and the purge cylinder having a passage formed therethrough, wherein the purge cylinder comprises: nozzles configured to direct a flow of gas radially inward into a portion of the passage disposed in the purge cylinder; and a bushing, wherein the lift pin guide is disposed between the purge cylinder and the bushing. 2 . The lift pin assembly of claim 1 , wherein the purge cylinder is a ceramic material. 3 . The lift pin assembly of claim 1 , wherein the lift pin guide is disposed below the purge cylinder. 4 . The lift pin assembly of claim 1 , further comprising a lift pin disposed in the passage. 5 . The lift pin assembly of claim 4 , wherein the nozzles are disposed radially outward from the lift pin. 6 . The lift pin assembly of claim 4 , wherein the lift pin is fabricated from sapphire. 7 . The lift pin assembly of claim 4 , wherein the nozzles are disposed in a staggered pattern surrounding the lift pin. 8 . The lift pin assembly of claim 4 , wherein the nozzles comprise at least two nozzles that are disposed at an angle of about 120 degrees to about 180 degrees circumferentially around the lift pin. 9 . The lift pin assembly of claim 1 , further comprising a hoop assembly disposed below the purge cylinder. 10 . The lift pin assembly of claim 9 , wherein the purge cylinder is disposed between the lift pin guide and the hoop assembly. 11 . An assembly comprising: a substrate support; a facility plate disposed below the substrate support; and a lift pin assembly disposed within the substrate support and the facility plate comprising: a lift pin guide; a purge cylinder disposed adjacent the lift pin guide, the lift pin guide and the purge cylinder having a passage formed therethrough, wherein the purge cylinder comprises: nozzles configured to direct a flow of gas radially inward into a portion of the passage disposed in the purge cylinder; a left pin disposed in the passage; and a bushing wherein the lift pin guide is disposed between the purge cylinder and the bushing. 12 . The lift pin assembly of claim 11 , wherein the lift pin is fabricated from sapphire. 13 . The lift pin assembly of claim 11 , wherein the nozzles are disposed in a staggered pattern surrounding the lift pin. 14 . The lift pin assembly of claim 11 , wherein the purge cylinder is a ceramic material. 15 . The lift pin assembly of claim 11 , wherein the nozzles are disposed radially outward from the lift pin. 16 . The lift pin assembly of claim 11 , wherein the lift pin guide is disposed below the purge cylinder. 17 . The lift pin assembly of claim 11 , wherein the nozzles comprise at least two nozzles that are disposed at an angle of about 120 degrees to about 180 degrees circumferentially around the lift pin. 18 . The lift pin assembly of claim 11 , further comprising a hoop assembly disposed below the purge cylinder. 19 . The lift pin assembly of claim 18 , wherein the purge cylinder is disposed between the lift pin guide and the hoop assembly. 20 . A lift pin assembly comprising: a lift pin guide; a purge cylinder disposed adjacent the lift pin guide, the lift pin guide and the purge cylinder having a passage formed therethrough, wherein the lift pin guide is disposed below the purge cylinder, and wherein the purge cylinder comprises: nozzles configured to direct a flow of gas radially inward into a portion of the passage disposed in the purge cylinder; a lift pin is disposed in the passage; and a bushing, wherein the lift pin guide is disposed between the purge cylinder and the bushing.