Patent Number: 062401580
Section: claims

1. An X-ray projection exposure apparatus, comprising: an X-ray source that generates X-rays;  a mask stage configured to hold a mask having a mask pattern;  an X-ray illumination optical system that directs the X-rays generated by the X-ray source towards the mask to project the mask pattern;  a substrate stage configured to hold a substrate;  an X-ray projection focusing optical system that receives the X-rays that have interacted with the mask and projects and focuses an image of the mask pattern onto the substrate, the X-ray projection focusing optical system including a plurality of reflective mirrors that reflect the X-rays; and  a position detection optical system that optically detects a mark on the mask and a mark on the substrate, at least a portion of the position detection optical system being disposed between the plurality of reflective mirrors.  an X-ray source that generates X-rays;  an illumination optical system that directs the X-rays generated by the X-ray source towards a mask having a mask pattern;  a substrate stage configured to hold a substrate;  a projection focusing optical system that receives the X-rays that have interacted with the mask and projects and focuses an image of the mask pattern onto the substrate, the projection focusing optical system including a plurality of reflective mirrors that reflect the X-rays; and  a position detection device that optically detects a position of the substrate in a direction substantially parallel to an optical axis of the projection focusing optical system, at least a portion of the position detection device being disposed between the plurality of reflective mirrors.  An X-ray source that generates X-rays;  an illumination optical system that directs the X-rays generated by the X-ray source towards a mask having a mask pattern;  a substrate stage configured to hold a substrate;  a projection focusing optical system that receives the X-rays that have interacted with the mask and projects and focuses an image of the mask pattern on the substrate, the projection focusing optical system including a plurality of reflective mirrors that reflect the X-rays; and  a position detection mechanism that optically detects a position of the substrate in a direction substantially parallel to an optical axis of the projection focusing optical system,  wherein a reflective mirror that is closest to the substrate among the plurality of reflective mirrors has a space which allows the passage of light by which the position detection mechanism detects the position of the substrate.  an X-ray source that generates X-rays;  an illumination optical system that directs the X-rays generated by the X-ray source towards a mask having a mask pattern;  a substrate stage configured to hold a substrate;  a projection focusing optical system that receives the X-rays that have interacted with the mask and projects and focuses an image of the mask pattern onto the substrate, the projection focusing optical system including a plurality of reflective mirrors that reflect the X-rays, the projection focusing optical system further including a holder that holds a reflective mirror that is closest to the substrate; and  a position detection mechanism that optically detects a position of the substrate in a direction substantially parallel to an optical axis of the projection focusing optical system,  wherein the holder has a space in its surface facing the substrate, the space allowing the passage of light by which the position detection mechanism detects the position of the substrate.  an X-ray source that generates X-rays;  a mask stage configured to hold a mask having a mask pattern;  an X-ray illumination optical system that directs the X-rays generated by the X-ray source towards the mask;  a substrate stage configured to hold a substrate;  an X-ray projection focusing optical system that receives the X-rays that have interacted with the mask and projects and focuses an image of the mask pattern onto the substrate, the X-ray projection focusing optical system including a plurality of reflective mirrors that reflect X-rays, a reflective mirror closest to the substrate stage being adjacent the substrate stage; and  a position detection optical system that optically detects a position of the substrate,  wherein the X-ray projection focusing optical system is configured to accommodate at least a portion of the position detection optical system disposed between the plurality of reflective mirrors.  wherein the reflective mirror closest to the substrate stage is configured to provide a passage for the optical path of the detection light. 2. The X-ray projection exposure apparatus according to claim 1, wherein a portion of the position detection optical system is disposed between a reflective mirror closet to the substrate and a reflective mirror second closest to the substrate among the plurality of reflective mirrors in the X-ray projection focusing optical system. 3. The X-ray projection exposure apparatus according to claim 1, wherein the position detection optical system includes an illumination optical system and a detection optical system, the illumination optical system illuminating the mark on the mask with light, the light reflected from the mark on the mask being guided towards the mark on the substrate via at least one of the reflective mirrors in the X-ray projection focusing optical system, the detection optical system detecting the light from the mark on the substrate. 4. The X-ray projection exposure apparatus according to claim 1, wherein the position detection optical system includes an illumination optical system and a detection optical system, the illumination optical system illuminating the mark on the substrate with light, the light reflected from the mark on the substrate being guided towards the mark on the mask via at least one of the reflective mirrors in the X-ray projection focusing optical system, the detection optical system detecting the light from the mark on the mask. 5. The X-ray projection exposure apparatus according to claim 1, wherein the position detection optical system includes a motion mechanism. 6. The X-ray projection exposure apparatus according to claim 1, wherein the numerical aperture of the position detection optical system is equal to or less than one half of the numerical aperture of the X-ray projection focusing optical system. 7. The X-ray projection exposure apparatus according to claim 1, wherein the portion of the position detection optical system that is disposed between the plurality of reflective mirrors includes a half-mirror. 8. The X-ray projection exposure apparatus according to claim 1, wherein the position detection optical system includes a temperature adjustment mechanism. 9. An X-ray projection apparatus, comprising: 10. The X-ray projection exposure apparatus according to claim 9, wherein at least a portion of the position detection device is disposed between a reflective mirror closest to the substrate and a reflective mirror second closest to the substrate among the plurality of reflective mirrors. 11. The X-ray projection exposure apparatus according to claim 9, wherein a through-hole is formed in a reflective mirror closest to the substrate to provide a passage for light by which the position detection device detects the position of the substrate. 12. The X-ray projection exposure apparatus according to claim 9, wherein the position detection device includes a motion mechanism. 13. The X-ray projection exposure apparatus according to claim 9, wherein the position detection device includes a temperature adjustment mechanism. 14. An X-ray projection exposure apparatus comprising: 15. The X-ray projection exposure apparatus according to claim 14, wherein the space which allows the passage of the light of the position detection mechanism includes a tapered part formed in the reflective mirror that is closest to the substrate. 16. The X-ray projection exposure apparatus according to claim 14, wherein the space which allows the passage of the light of the position detection mechanism includes at least one of a groove and a through-hole formed in the reflective mirror that is closest to the substrate. 17. An X-ray projection exposure apparatus, comprising: 18. The X-ray projection exposure apparatus according to claim 17, wherein the space, which allows the passage of the light of the position detection mechanism, includes a tapered part formed in the holder. 19. The X-ray projection exposure apparatus according to claim 17, wherein the space, which allows the passage of the light of the position detection mechanism, includes at least one of a groove and a through-hole formed in the holder. 20. An X-ray projection exposure apparatus, comprising: 21. The X-ray projection exposure apparatus according to claim 20, wherein the position detection optical system detects the position of the substrate in a direction substantially parallel to an optical axis of the X-ray projection focusing optical system. 22. The X-ray projection exposure apparatus according to claim 20, wherein the position detection optical system detects the position of the substrate relative to a position of the mask. 23. The X-ray projection exposure apparatus according to claim 20, wherein the position detection optical system detects the position of the substrate in a direction substantially perpendicular to an optical axis of the X-ray projection focusing optical system. 24. The X-ray projection exposure apparatus according to claim 20, wherein the portion of the position detection optical system includes a retractable optical element to be inserted between two of the plurality of reflective mirrors upon detecting the position of the substrate. 25. The X-ray projection exposure apparatus according to claim 24, wherein when inserted, the retractable optical element is positioned between the reflective mirror closest to the substrate stage and the reflective mirror second closest to the substrate stage. 26. The X-ray projection exposure apparatus according to claim 24, wherein when the retractable optical element is inserted, the position detection optical system utilizes at least one of the reflective mirrors in the X-ray projection focusing optical system to detect the position of the substrate. 27. The X-ray projection exposure apparatus according to claim 20, wherein the portion of the position detection optical system to be accommodated by the X-ray projection focusing optical system includes an optical path for a detection light by which the position detection optical system detects the position of the substrate, and 28. The X-ray projection exposure apparatus according to claim 27, wherein the reflective mirror closest to the substrate stage has a tapered portion providing the passage for the optical path of the detection light. 29. The X-ray projection exposure apparatus according to claim 27, wherein the reflective mirror closest to the substrate stage has a through-hole providing the passage for the optical path of the detection light.