Thermal barrier apparatus

The invention claimed is: 1. A thermal barrier apparatus for a window system comprising a closed curved-shaped plate having a via in a central portion, the closed curve-shaped plate further comprising: a plurality of walls, wherein: each wall of the plurality of walls is concentric with each other wall of the plurality of walls; the plurality of walls define a plurality of adjacent concentric channels separated from an adjacent concentric channel by one of the walls; each wall of the plurality of walls comprises a plurality of wall portions, wherein each wall portion of the plurality of wall portions of each wall is separated from an adjacent wall portion by an opening through the wall; the plurality of walls further comprises an outer wall formed on an outer peripheral edge of the closed curve-shaped plate, the outer wall comprising a plurality of outer wall portions, with each outer wall portion separated from an adjacent outer wall portion by an opening through the outer wall; the plurality of walls further comprises an inner wall formed on an inner peripheral edge of the closed curve-shaped plate, the inner wall comprising a plurality of inner wall portions, with each inner wall portion separated from an adjacent inner wall portion by an opening through the inner wall; and the plurality of openings and concentric channels are configured to provide an air flow path for conduction of air through the thermal barrier apparatus to an exterior of the thermal barrier apparatus. 2. The thermal barrier apparatus of claim 1 , wherein: the plurality of walls comprises a first wall and a second wall; the first wall is adjacent to the second wall and separated by one of the channels; and each opening between adjacent wall portions of the first wall is staggered with respect to at least one opening between adjacent wall portions of the second wall. 3. The thermal barrier apparatus of claim 1 , wherein at least one of the openings in at least one wall of the plurality of walls comprises that is about two times a width of a channel adjacent to the at least one wall. 4. The thermal barrier apparatus of claim 1 , further comprising: a frame; a first thermal barrier layer provided between the frame and a second surface of the closed curve-shaped plate; a closed curve-shaped pane provided at a portion of a first surface of the closed curve-shaped plate; and a seal provided between the closed curve-shaped pane and the first surface of the closed curve-shaped plate. 5. The thermal barrier apparatus of claim 4 , further comprising: a second thermal barrier layer provided between the seal and the closed curve-shaped plate. 6. The thermal barrier apparatus of claim 5 , wherein at least two of the first thermal barrier layer, the second thermal barrier layer, and the seal comprises silica aerogel. 7. The thermal barrier apparatus of claim 4 , wherein the frame is a metallic frame or a composite frame comprising carbon fiber. 8. The thermal barrier apparatus of claim 1 , wherein the closed curve-shaped plate is a composite comprising at least fiberglass epoxy and silica aerogel. 9. The thermal barrier apparatus of claim 8 , wherein the composite of the closed curve-shaped plate comprises 30% to 35% aerogel. 10. The thermal barrier apparatus of claim 1 , wherein the plurality of walls are oriented toward the via. 11. A window system, comprising: a window frame; a closed curve-shaped plate provided in the window frame comprising a thermal barrier, the thermal barrier comprising a first thermal barrier layer provided between the window frame and a second surface of the closed curve-shaped plate, the closed curved-shaped plate further comprising a plurality of walls, wherein: each wall of the plurality of walls is concentric with each other wall of the plurality of walls; the plurality of walls define a plurality of adjacent concentric channels separated from an adjacent concentric channel by one of the walls; each wall of the plurality of walls comprises a plurality of wall portions, wherein each wall portion of the plurality of wall portions of each wall is separated from an adjacent wall portion by an opening through the wall; the plurality of walls further comprises an outer wall formed on an outer peripheral edge of the closed-shaped plate, the outer wall comprising a plurality of outer wall portions, with each outer wall portion separated from an adjacent outer wall portion by an opening through the outer wall; the plurality of walls further comprises an inner wall formed on an inner peripheral edge of the closed curved-shaped plate, the inner wall comprising a plurality of inner wall portions, with each inner wall portion separated from an adjacent inner wall portion by an opening through the inner wall; and the plurality of openings and concentric channels are configured to provide an air flow path for conduction of air through the thermal barrier to an exterior of the thermal barrier; a closed curve-shaped window pane provided at a portion of a first surface of the closed curve-shaped plate; and a seal provided between the closed curve-shaped window pane and the first surface of the closed curve-shaped plate. 12. The window system of claim 11 , wherein: the plurality of walls comprises a first wall and a second wall; the first wall is adjacent to the second wall and separated by one of the channels; and each opening between adjacent wall portions of the first wall is staggered with respect to at least one opening between adjacent wall portions of the second wall. 13. The window system of claim 11 , wherein at least one of the openings in at least one wall of the plurality of walls comprises a length that is about two times a width of a channel adjacent to the at least one wall. 14. The window system of claim 11 , further comprising: a second thermal barrier layer provided between the seal and the closed curve-shaped plate. 15. The window system of claim 14 , wherein at least two of the first thermal barrier layer, the second thermal barrier layer, and the seal comprises silica aerogel. 16. The window system of claim 11 , wherein the window frame is a metallic window frame or a composite window frame comprising carbon fiber. 17. The window system of claim 11 , wherein the closed curve-shaped plate is a composite comprising at least fiberglass epoxy and silica aerogel. 18. The window system of claim 17 , wherein the composite of the closed curve-shaped plate comprises 30 to 35% aerogel. 19. An aircraft, comprising: a window frame; and a plurality of windows, each of the plurality of windows comprising a closed curve-shaped plate having a via in a central portion of the closed curve-shaped plate, and provided in the window frame, the closed curve-shaped plate further comprising: a plurality of walls, wherein: each wall of the plurality of walls is concentric with each other wall of the plurality of walls; the plurality of walls define a plurality of adjacent concentric channels separated from an adjacent concentric channel by one of the walls; each wall of the plurality of walls comprises a plurality of wall portions, wherein each wall portion of the plurality of wall portions of each wall is separated from an adjacent wall portion by an opening through the wall; the plurality of walls further comprises an outer wall formed on an outer peripheral edge of the closed curve-shaped plate, the outer wall comprising a plurality of outer wall portions, with each outer wall portion separated from an adjacent outer wa