Patent Number: 053352564
Section: claims

1. An X-ray mask support having an X-ray permeable film and a support frame for supporting said X-ray permeable film, said X-ray permeable film mainly comprising a single-layer film having different densities in its thickness direction. 2. The X-ray mask support according to claim 1, wherein a portion of said single-layer film has a columnar growth structure. 3. The X-ray mask support according to claim 1, wherein said single-layer film is disposed adjacent to said support frame, and the density of said single-layer film in the vicinity of its film surface adjacent to said support frame is higher than the density of said single-layer film in the vicinity of its film surface opposite to said film surface adjacent to said support frame. 4. The X-ray mask support according to claim 3, wherein the single-layer film has a columnar growth structure in the vicinity of its film surface opposite to the film surface adjacent to said support frame. 5. The X-ray mask support according to claim wherein the film surface of said single-layer film adjacent to said support frame is better in alkali resistance than the film surface opposite to said film surface adjacent to said support frame. 6. The X-ray mask support according to claim 3, wherein the film surface of said single-layer film adjacent to said support frame is better in acid resistance than the film surface opposite to said film surface adjacent to said support frame. 7. The X-ray mask support according to claim 1, wherein said single-layer film is disposed adjacent to said support frame, and the densities of said single-layer film in the vicinity of its film surface adjacent to said support frame and in the vicinity of its film surface opposite to said film surface adjacent to said support frame are higher than the density of the inner portion in said single-layer film. 8. The X-ray mask support according to claim 7, wherein the inner portion of said single-layer film has a columnar growth structure. 9. The X-ray mask support according to claim 1, wherein said single-layer film is comprised of one material selected from the group consisting of silicon, carbon, aluminum, boron and their nitrides or oxides. 10. The X-ray mask support according to claim 1, wherein said single-layer film is comprised of one compound selected from the group consisting of silicon carbide, silicon nitride and aluminum nitride. 11. The X-ray mask support according to claim 1, wherein said support frame is comprised of one material selected from the group consisting of silicon, quartz, glass, titanium, titanium alloys, stainless steel and ceramics. 12. The X-ray mask support according to claim 1, wherein the thickness of said X-ray permeable film is in the range of 0.5 to 10 .mu.m. 13. The X-ray mask support according to claim 1, wherein the thickness of said X-ray permeable film is in the range of 1 to 5 .mu.m. 14. An X-ray mask support having an X-ray permeable film and a support frame for supporting said X-ray permeable film, said X-ray permeable mainly comprising a multi-layer laminate film in which adjacent layers have different densities, and all the layers of said multi-layer laminate film are comprised of compounds having the same main constitutional elements. 15. The X-ray mask support according to claim 14, wherein at least one of the layers comprising said multi-layer laminate film has a columnar growth structure. 16. The X-ray mask support according to claim 14, wherein said multi-layer laminate film is disposed adjacent to said support frame, and among the layers comprising said multi-layer laminate film, the layer adjacent to said support frame has a higher density than the layer adjacent to said layer. 17. The X-ray mask support according to claim 16, wherein among the layers comprising said multi-layer laminate film, the layer adjacent to said support frame is better in alkali resistance than the layer adjacent to said layer. 18. The X-ray mask support according to claim 16, wherein among the layers comprising said multi-layer laminate film, the layer adjacent to said support frame is better in acid resistance than the layer adjacent to said layer. 19. The X-ray mask support according to claim 16, wherein said multi-layer laminate film is a two-layer laminate film comprising a layer A adjacent to said support frame and a layer B adjacent to said layer A, and the density of said layer A is higher than that of said layer B. 20. The X-ray mask support according to claim 19, wherein said layer B has a columnar growth structure. 21. The X-ray mask support according to claim 16, wherein said multi-layer laminate film is a three-layer laminate film comprising a layer A adjacent to said support frame, a layer B adjacent to said layer A, and a layer C adjacent to said layer B, and the density of said layer A is higher than that of said layer B, and the density of said layer C is higher than that of said layer B. 22. The X-ray mask support according to claim 21, wherein said layer B has a columnar growth structure. 23. The X-ray mask support according to claim 16, wherein the thickness of said multi-layer laminate film is in the range of 0.5 to 10 .mu.m and the thickness of said layer adjacent to said support frame is not less than 200 .ANG.. 24. The X-ray mask support according to claim 16, wherein the thickness of said multi-layer laminate film is in the range of 1 to 5 .mu.m, and the thickness of the layer adjacent to said support frame is in the range of 100 to 5000 .ANG.. 25. The X-ray mask support according to claim 14, wherein said multi-layer laminate film is comprised of a material selected from the group consisting of silicon, carbon, aluminum, boron and their nitrides or oxides. 26. The X-ray mask support according to claim 14, wherein said multi-layer laminate film is comprised of one compound selected from the group consisting of silicon carbide, silicon nitride and aluminum nitride. 27. The X-ray mask support according to claim 14, wherein said support frame is comprised of one material selected from the group consisting of silicon, quartz, glass, titanium, titanium alloys, stainless steel and ceramics. 28. An X-ray mask structure having an X-ray permeable film, a support frame for supporting said X-ray permeable film and an X-ray absorber supported by said X-ray permeable film, said X-ray permeable film mainly comprising a single-layer film having different densities in its thickness direction. 29. The X-ray mask structure according to claim 28, wherein a portion of said single-layer film has a columnar growth structure. 30. The X-ray mask structure according to claim 29, wherein said single-layer film is disposed adjacent to said support frame, and the density of said single-layer film in the vicinity of its film surface adjacent to said support frame is higher than the density of said single-layer film in the vicinity of the film surface opposite to said film surface adjacent to said support frame 31. The X-ray mask structure according to claim 30, wherein the single-layer film has a columnar growth structure in the vicinity of its film surface opposite to the film surface adjacent to said support frame. 32. The X-ray mask structure according to claim 30, wherein the film surface of said single-layer film adjacent to said support frame is better in alkali resistance than the film surface opposite to said film surface adjacent to said support frame. 33. The X-ray mask structure according to claim 30, wherein the film surface of said single-layer film adjacent to said support frame is better in acid resistance than the film surface opposite to said film surface adjacent to said support frame. 34. The X-ray mask structure according to claim 28, wherein said single-layer film is disposed adjacent to said support frame, and the densities of said single-layer film in the vicinity of its film surface adjacent to said support frame adjacent to said support frame and in the vicinity of the film surface opposite to said film surface adjacent to said support frame are higher than the density of the inner portion in said single-layer film. 35. The X-ray mask structure accordinq to claim 34, wherein the inner portion of said single-layer film has a columnar growth structure. 36. The X-ray mask structure according to claim 28, wherein said single-layer film is comprised of one material selected from the group consisting of silicon, carbon, aluminum, boron and their nitrides or oxides. 37. The X-ray mask structure according to claim 28, wherein said single-layer film is comprised of one compound selected from the group consisting of silicon carbide, silicon nitride and aluminum nitride. 38. The X-ray mask structure according to claim 28, wherein said support frame is comprised of one material selected from the group consisting of silicon, quartz, glass, titanium, titanium alloys, stainless steel and ceramics. 39. The X-ray mask structure according to claim 28, wherein said X-ray absorber is comprised of one material selected from the group consisting of Au, Ta, W, Pt and compounds thereof. 40. The X-ray mask structure according to claim 28, wherein the thickness of said X-ray permeable film is in the range of 0.5 to 10 .mu.m. 41. The X-ray mask structure according to claim 28, wherein the thickness of said X-ray permeable film is in the range of 1 to 5 .mu.m. 42. The X-ray mask structure according to claim 28, wherein the thickness of said X-ray absorber is not less than 0.2 .mu.m. 43. The X-ray mask structure according to claim 28, wherein the thickness of said X-ray absorber is in the range of 0.5 to 1 .mu.m. 44. An X-ray mask structure having an X-ray permeable film, a support frame for supporting said X-ray permeable film and an X-ray absorber supported by said X-ray permeable film, said X-ray permeable film mainly comprising a multi-layer laminate film in which adjacent layers have different densities, and all the layers of said multi-layer laminate film are comprised of compounds having the same main constitutional elements. 45. The X-ray mask structure according to claim 44, wherein at least one of the layers comprising said multi-layer laminate film has a columnar growth structure. 46. The X-ray mask structure according to claim 44, wherein said multi-layer laminate film is disposed adjacent to said support frame, and among the layers comprising said multi-layer laminate film, the density of the layer adjacent to said support frame is higher than that of the layer adjacent to said layer. 47. The X-ray mask structure according to claim 46, wherein among the layers comprising said multi-layer laminate film, the layer adjacent to said support frame is better in alkali resistance than the layer adjacent to said layer. 48. The X-ray mask structure according to claim 46, wherein among the layers comprising said multi-layer laminate film, the layer adjacent to said support frame is better in acid resistance than the layer adjacent to said layer. 49. The X-ray mask structure according to claim 46, wherein said multi-layer laminate film is a two-layer laminate film comprising a layer A adjacent to said support frame and a layer B adjacent to said layer A, and the density of said layer A is higher than that of said layer B. 50. The X-ray mask structure according to claim 49, wherein said layer B has a columnar growth structure. 51. The X-ray mask structure according to claim 46, wherein said multi-layer laminate film is a three-layer laminate film comprising a layer A adjacent to said said support frame, a layer B adjacent to said layer A, and a layer C adjacent to said layer B, and the density of said layer A is higher than that of said layer B, and the density of said layer C is higher than that of said layer B. 52. The X-ray mask structure according to claim 51, wherein said layer B has a columnar growth structure. 53. The X-ray mask structure according to claim 46, wherein the thickness of said multi-layer laminate film is in the range of 0.5 to 10 .mu.m and the thickness of said layer adjacent to said support frame is not less than 200 .ANG.. 54. The X-ray mask structure according to claim 46, wherein the thickness of said multi-layer laminate film is in the range of 1 to 5 .mu.m, and the thickness of the layer adjacent to said support frame is in the range of 100 to 5000 .ANG.. 55. The X-ray mask structure according to claim 44, wherein said multi-layer laminate film is comprised of a material selected from the group consisting of silicon, carbon, aluminum, boron and their nitrides or oxides. 56. The X-ray mask structure according to claim 44, wherein said multi-layer laminate film is comprised of one compound selected from the group consisting of silicon carbide, silicon nitride and aluminum nitride. 57. The X-ray mask structure according to claim 44, wherein said support frame is comprised of one material selected from the group consisting of silicon, quartz, glass, titanium, titanium alloys, stainless steel and ceramics. 58. The X-ray mask structure according to claim 44, wherein said X-ray absorber is comprised of one material selected from the group consisting of Au, Ta, W, Pt or compounds thereof. 59. The X-ray mask structure according to claim 44, wherein the thickness of said X-ray absorber is not less than 0.2 .mu.m. 60. The X-ray mask structure according to claim 44, wherein the thickness of said X-ray absorber is in the range of 0.5 to 1 .mu.m. 61. An X-ray exposure method comprising: providing an X-ray mask structure including an X-ray permeable film, a support frame for supporting said X-ray permeable film and an X-ray absorber supported on said X-ray permeable film, and said X-ray permeable film mainly comprising a single-layer film having different densities in its thickness direction; and  exposing a member to be exposed to X-rays through said X-ray mask structure.  providing an X-ray mask structure, said X-ray mask structure including an X-ray permeable film, a support frame for supporting said X-ray permeable film and an X-ray absorber supported on said X-ray permeable film, said X-ray permeable film mainly comprising a multi-layer laminate film in which adjacent layers have different densities, and all the layers of said multi-layer laminate film being comprised of compounds having the same main constitutional elements; and  exposing a member to be exposed to X-rays through said X-ray mask structure. 62. The X-ray exposure method according to claim 61, wherein a portion of said single-layer film has a columnar growth structure. 63. The X-ray exposure method according to claim 61, wherein said single-layer film is disposed adjacent to said support frame, and the density of said single-layer film in the vicinity of its film surface adjacent to said support frame is higher than the density of said single-layer film in the vicinity of the film surface opposite to said film surface adjacent to said support frame. 64. The X-ray exposure method according to claim 63, wherein the single-layer film has a columnar growth structure in the vicinity of its film surface opposite to the film surface adjacent to said support frame. 65. The X-ray exposure method according to claim 63, wherein the film surface of said single-layer film adjacent to said support frame is better in alkali resistance than the film surface opposite to said film surface adjacent to said support frame. 66. The X-ray exposure method according to claim 63, wherein the film surface of said single-layer film adjacent to said support frame is better in acid resistance than the film surface opposite to said film surface adjacent to said support frame. 67. The X-ray exposure method according to claim 61, wherein said single-layer film is disposed adjacent to said support frame, and the densities of said single-layer film in the vicinity of its film surface adjacent to said support frame and in the vicinity of the film surface opposite to said film surface adjacent to said support frame are higher than the density of the inner portion in said single-layer film. 68. The X-ray exposure method according to claim 67, wherein the inner portion of said single-layer film has a columnar growth structure. 69. The X-ray exposure method according to claim 61, wherein said single-layer film is comprised of one material selected from the group consisting of silicon, carbon, aluminum, boron and their nitrides or oxides. 70. The X-ray exposure method according to claim 61, wherein said single-layer film is comprised of one compound selected from the group consisting of silicon carbide, silicon nitride and aluminum nitride. 71. The X-ray exposure method according to claim 61, wherein said support frame is comprised of one material selected from the group consisting of silicon, quartz, glass, titanium, titanium alloys, stainless steel and ceramics. 72. The X-ray exposure method according to claim 61, wherein said X-ray absorber is comprised of one material selected from group consisting of Au, Ta, W, Pt and the compounds thereof. 73. The X-ray exposure method according to claim 61, wherein the thickness of said X-ray permeable film is in the range of 0.5 to 10 .mu.m. 74. The X-ray exposure method according to claim 61, wherein the thickness of said X-ray permeable film is in the range of 1 to 5 .mu.m. 75. The X-ray exposure method according to claim 61, wherein the thickness of said X-ray absorber is not less than 0.2 .mu.m. 76. The X-ray exposure method according to claim 61, wherein the thickness of said X-ray absorber is in the range of 0.5 to 1 .mu.m. 77. An X-ray exposure method comprising: 78. The X-ray exposure method according to claim 77, wherein at least one of the layers comprising said multi-layer laminate film has a columnar growth structure. 79. The X-ray exposure method according to claim 77, wherein said multi-layer laminate film is disposed adjacent to said support frame, and among the layers comprising said multi-layer laminate film, the layer adjacent to said support frame has a higher density than the layer adjacent to said layer. 80. The X-ray exposure method according to claim 79, wherein among the layers comprising said multi-layer laminate film, the layer adjacent to said support frame is better in alkali resistance than the layer adjacent to said layer. 81. The X-ray exposure method according to claim 79, wherein among the layers comprising said multi-layer laminate film, the layer adjacent to said support frame is better in acid resistance than the layer adjacent to said layer. 82. The X-ray exposure method according claim 79, wherein said multi-layer laminate film is a two-layer laminate film comprising a layer A adjacent to said support frame and a layer B adjacent to said layer A, and the density of said layer A is higher than that of said layer B. 83. The X-ray exposure method according to claim 82, wherein said layer B has a columnar growth structure. 84. The X-ray exposure method according to claim 79, wherein said multi-layer laminate film is a three-layer laminate film comprising a layer A adjacent to said support frame, a layer B adjacent to said layer A, and a layer C adjacent to said layer B, and the density of said layer A is higher than that of said layer B, and the density of said layer C is higher than that of said layer B. 85. The X-ray exposure method according to claim 84, wherein said layer B has a columnar growth structure. 86. The X-ray exposure method according to claim 79, wherein the thickness of said multi-layer laminate film is in the range of 0.5 to 10 .mu.m and the thickness of said layer adjacent to said support frame is not less than 200 .ANG.. 87. The X-ray exposure method according to claim 79, wherein the thickness of said multi-layer laminate film is in the range of 1 to 5 .mu.m, and the thickness of the layer adjacent to said support frame is in the range of 100 to 5000 .ANG.. 88. The X-ray exposure method according to claim 77, wherein said multi-layer laminate film is comprised of a material selected from the group consisting of silicon, carbon, aluminum, boron and their nitrides or oxides. 89. The X-ray exposure method according to claim 77, wherein said multi-layer laminate film is comprised of one compound selected from the group consisting of silicon carbide, silicon nitride and aluminum nitride. 90. The X-ray exposure method according to claim 77, wherein said support frame is comprised of one material selected from the group consisting of silicon, quartz, glass, titanium, titanium alloys, stainless steel and ceramics. 91. The X-ray exposure method according to claim 77, wherein said X-ray absorber is comprised of one material selected from the group consisting of Au, Ta, W, Pt and the compounds thereof. 92. The X-ray exposure method according to claim 77, wherein the thickness of said X-ray absorber is not less than 0.2 .mu.m. 93. The X-ray exposure method according to claim 77, wherein the thickness of said X-ray absorber is in the range of 0.5 to 1 .mu.m.