Patent Number: 06084938&
Section: claims

1. An X-ray projection exposure apparatus, comprising: a mask chuck for holding a reflection X-ray mask having a mask pattern thereon;  a wafer chuck for holding a wafer onto which the mask pattern is transferred;  an X-ray illuminating system for illuminating the reflection X-ray mask, held by said mask chuck, with X-rays;  an X-ray projection optical system for projecting the mask pattern of the reflection X-ray mask onto the wafer held by said wafer chuck with a predetermined magnification, wherein said mask chuck comprises a static electricity generating mechanism for generating static electricity for attracting and holding the reflection X-ray mask by an electrostatic force; and  a detection mechanism for detecting an attraction force with which the reflection X-ray mask is held as a result of the electrostatic force generated by said static electricity generating mechanism.  a mask chuck for holding a reflection X-ray mask having a mask pattern thereon, wherein said mask chuck comprises a mask holding surface and a plurality of projections formed on said mask holding surface, wherein the reflection X-ray mask is supported by said plurality of projections, and wherein the ratio of the area of contact portions where the distal ends of said plurality of projections contact the mask to the entire area of the mask is equal to or less than 10%;  a wafer chuck for holding a wafer onto which the mask pattern is transferred;  an X-ray illuminating system for illuminating the reflection X-ray mask, held by said mask chuck, with X-rays; and  an X-ray projection optical system for projecting the mask pattern of the reflection X-ray mask onto the wafer held by said wafer chuck with a predetermined magnification,  wherein said mask chuck comprises a static electricity generating mechanism for generating static electricity for attracting and holding the reflection X-ray mask by an electrostatic force.  a mask chuck for holding a reflection X-ray mask having a mask pattern thereon, wherein said mask chuck is subjected to scanning movement, and wherein said mask chuck comprises a static electricity generating mechanism for generating static electricity for attracting and holding the reflection X-ray mask by an electrostatic attracting force;  a wafer chuck for holding a wafer onto which the mask pattern is transferred;  an X-ray illuminating system for illuminating the reflection X-ray mask, held by said mask chuck, with X-rays;  an X-ray projection optical system for projecting the mask pattern of the reflection X-ray mask onto the wafer held by said wafer chuck with a predetermined magnification;  a driving control unit for controlling the scanning movement of said mask chuck; and  an attraction control unit which changes the electrostatic attracting force generated by said static electricity generating mechanism in accordance with the movement controlled by said driving control unit.  wherein said attraction control unit calculates the acceleration of said mask chuck from position information relating to the mask chuck detected by said driving control unit, and  wherein said attraction control unit changes the electrostatic attracting force generated by said static electricity generating mechanism in accordance with calculated acceleration.  {(the mass of the reflection X-ray mask).times.(acceleration due to gravity of the reflection X-ray mask+the maximum acceleration of the reflection X-ray mask while being moved)/(the maximum coefficient of static friction between the reflection X-ray mask and said mask chuck)}.times.(safety factor)&lt;(the attracting force of the reflection X-ray mask).  generating static electricity with the static electricity generating mechanism of the mask chuck to hold the reflection X-ray mask with the mask chuck by an electrostatic attracting force;  detecting the electrostatic attracting force with which the reflection X-ray mask is held with the mask chuck as a result of the static electricity generated in said generating step and controlling the amount of the electrostatic attracting force in accordance with said detection;  holding the wafer with the wafer chuck;  illuminating the reflection X-ray mask with X-rays using the X-ray illuminating system; and  projecting the mask pattern of the reflection X-ray mask onto the wafer held by the wafer chuck with a predetermined magnification with the X-ray projection optical system to transfer the mask pattern onto the wafer.  controlling the scanning movement of the mask chuck;  generating static electricity with the static electricity generating mechanism of the mask chuck to hold the reflection X-ray mask with the mask chuck by an electrostatic attracting force;  controlling the electrostatic attracting force generated in said generating step in accordance with the movement controlled by said controlling step of controlling the scanning movement;  holding the wafer with the wafer chuck;  illuminating the reflection X-ray mask with X-rays using the X-ray illuminating system; and  projecting the mask pattern of the reflection X-ray mask onto the wafer held by the wafer chuck with a predetermined magnification with the X-ray projection optical system to transfer the mask pattern onto the wafer.  detecting position information of the mask chuck;  calculating the acceleration of the mask chuck from the position information detected in said detecting step; and  controlling the electrostatic attracting force generated in said generating step in accordance with the acceleration calculated in said calculating step.  {(the mass of the reflection X-ray mask).times.(acceleration due to gravity of the reflection X-ray mask+the maximum acceleration of the reflection X-ray mask while being moved)/(the maximum coefficient of static friction between the reflection X-ray mask and said mask chuck)}.times.(safety factor)&lt;(the attracting force of the reflection X-ray mask).  a mask stage for holding a reflection X-ray mask having a mask pattern thereon, wherein said mask stage is subjected to scanning movement, and wherein said mask stage comprises a static electricity generating mechanism for generating static electricity for attracting and holding the reflection X-ray mask by an electrostatic attracting force;  a wafer stage for holding a wafer onto which the mask pattern is to be transferred, wherein said wafer stage is subjected to scanning movement;  an X-ray illuminating system for illuminating the reflection X-ray mask, held by said mask stage, with X-rays;  an X-ray projection optical system for projecting the mask pattern of the reflection X-ray mask onto the wafer held by said wafer stage with a predetermined reduced magnification;  a driving control unit for controlling the scanning movement of said mask stage;  a detection mechanism for detecting an attraction force with which the reflection X-ray mask is held as a result of the electrostatic force generated by said static electricity generating mechanism; and  an attraction control unit which controls the electrostatic attracting force generated by said static electricity generating mechanism in accordance with the detection by said mechanism.  generating static electricity with the static electricity generating mechanism of the mask stage to hold the reflection X-ray mask with the mask stage by an electrostatic attracting force;  detecting the electrostatic attracting force with which the reflection X-ray mask is held with the mask stage as a result of the static electricity generated in said generating step and controlling the amount of the electrostatic attracting force in accordance with the detection;  holding the wafer with the wafer stage;  illuminating the reflection X-ray mask with X-rays using the X-ray illuminating system;  projecting the mask pattern of the reflection X-ray mask onto the wafer held by the wafer stage with a predetermined reduced magnification with the X-ray projection optical system to transfer the mask pattern onto the wafer; and  controlling the scanning movement of the mask stage and the wafer stage.  generating static electricity with the static electricity generating mechanism of the mask stage to hold the reflection X-ray mask with the mask stage by an electrostatic attracting force;  detecting an electrostatic attracting condition with which the reflection X-ray mask is held with the mask stage as a result of the static electricity generated in said generating step, and controlling the amount of the electrostatic attracting force in accordance with the detection;  holding the wafer with the wafer stage;  illuminating the reflection X-ray mask with X-rays using the X-ray illuminating system;  projecting, with the X-ray projection optical system, the mask pattern of the reflection X-ray mask onto the wafer held by the wafer stage with a predetermined reduced magnification to transfer the mask pattern onto the wafer, and  controlling the scanning movement of the mask stage and the wafer stage.  a mask chuck for holding a reflection X-ray mask having a mask pattern thereon;  a wafer chuck for holding a wafer onto which the mask pattern is transferred;  an X-ray illuminating system for illuminating the reflection X-ray mask, held by said mask chuck, with X-rays;  an X-ray projection optical system for projecting the mask pattern of the reflection X-ray mask onto the wafer held by said wafer chuck with a predetermined magnification, wherein said mask chuck comprises a static electrically generating mechanism for generating static electricity for attracting and holding the reflection X-ray mask by an electrostatic force; and  a detection mechanism for detecting an attraction condition with which the reflection X-ray mask is held as a result of the electrostatic force generated by said static electricity generating mechansim.  generating static electricity with the static electricity generating mechanism of the mask chuck to hold the reflection X-ray mask with the mask chuck by an electrostatic attracting force;  detecting an electrostatic attracting condition with which the reflection X-ray mask is held with the mask chuck as a result of the static electricity generated in said generating step and controlling the amount of the electrostatic attracting force in accordance with the detection;  holding the wafer with the wafer chuck;  illuminating the reflection X-ray mask with X-rays using the X-ray illuminating system; and  projecting, with the X-ray projection optical system, the mask pattern of the reflection X-ray mask onto the wafer, held by the wafer chuck, with a predetermined magnification to transfer the mask pattern onto the wafer.  a mask stage for holding a reflection X-ray mask having a mask pattern thereon, wherein said mask stage is subjected to scanning movement, and said mask stage comprises a static electricity generating mechanism for generating static electricity for attracting and holding the reflection X-ray mask by an electrostatic attracting force;  a wafer stage for holding a wafer onto which the mask pattern is to be transferred, wherein said wafer stage is subjected to scanning movement;  an X-ray illuminating system for illuminating the reflection X-ray mask, held by said mask stage, with X-rays;  a driving control unit for controlling the scanning movement of said mask stage;  a detection mechanism for detecting an attraction condition with which the reflection X-ray mask is held as a result of the electrostatic force generated by said static electricity generating mechanism; and  an attraction control unit which controls the electrostatic attracting force generated by said static electricity generating mechanism in accordance with the detection by said detection mechanism. 2. An apparatus according to claim 1, wherein said static electricity generating mechanism controls the amount of generated static electricity in accordance with the amount of attraction force detected by said detection mechanism. 3. An apparatus according to claim 1, wherein said detection mechanism comprises a pressure sensor provided on an attracting surface of said mask chuck. 4. An apparatus according to claim 1, further comprising means for performing scanning exposure by moving both of said mask chuck and said wafer chuck. 5. An apparatus according to claim 1, wherein said mask chuck holds the mask against gravity. 6. An apparatus according to claim 1, further comprising means for changing the electrostatic force for attracting the reflection X-ray mask by said mask chuck in accordance with the movement of said mask chuck. 7. An apparatus according to claim 6, wherein the relationship of {(the mass of the reflection X-ray mask).times.(acceleration due to gravity+the maximum acceleration of the reflection X-ray mask while being moved)/(the maximum coefficient of static friction between the reflection X-ray mask and said mask chuck)}.times.(safety factor)&lt;(the attracting force of the reflection X-ray mask) is satisfied. 8. An apparatus according to claim 1, wherein said mask chuck comprises a mask holding surface and a plurality of projections formed on said mask holding surface, and wherein the reflection X-ray mask is supported by said plurality of projections. 9. An apparatus according to claim 8, wherein the ratio of the area of contact portions where the distal ends of said plurality of projections contact the mask to the entire area of the mask is equal to or less than 10%. 10. An apparatus according to claim 8, wherein a plurality of voids are formed between said plurality of projections, said apparatus further comprising means for supplying the plurality of voids with a cooling gas when the reflection X-ray mask is supported on said plurality of projections. 11. An apparatus according to claim 1, further comprising a temperature control mechanism for controlling the temperature of said mask chuck. 12. An apparatus according to claim 11, wherein said temperature control mechanism comprises means for supplying the inside of said mask chuck with a temperature controlled medium, and a temperature sensor for detecting the temperature of said mask chuck. 13. An apparatus according to claim 1, wherein said mask chuck comprises a ceramic material or a glass material. 14. An apparatus according to claim 1, further comprising a grounded earth pawl provided at least at a side of said mask chuck for supporting the mask. 15. An apparatusa according to claim 1, wherein the reflection X-ray mask comprises an X-ray reflecting multilayer film and wherein the mask pattern is made of an absorbing member formed on the X-ray reflecting multilayer film. 16. An apparatus according to claim 1, wherein said X-ray illuminating system comprises a radiation source and a reflecting mirror. 17. An apparatus according to claim 1, wherein said X-ray projection optical system comprises a reduction projection optical system having a plurality of X-ray reflecting mirrors. 18. An apparatus according to claim 1, wherein the X-rays include vacuum-ultraviolet rays or soft X-rays. 19. An X-ray projection exposure apparatus, comprising: 20. An apparatus according to claim 19, wherein the X-rays include vacuum-ultraviolet rays or soft X-rays. 21. An X-ray projection exposure apparatus, comprising: 22. An apparatus according to claim 21, wherein said driving control unit detects position information of the mask chuck, 23. An apparatus according to claim 22, wherein said attraction control unit controls the electrostatic attracting force of said static electricity generating mechanism to satisfy the following expression: 24. An apparatus according to claim 21, wherein the X-rays include vacuum-ultraviolet rays or soft X-rays. 25. A device manufacturing method using an X-ray projection exposure apparatus comprising a mask chuck for holding a reflection X-ray mask having a mask pattern thereon, a wafer chuck for holding a wafer onto which the mask pattern is transferred, an X-ray illuminating system for illuminating the reflection X-ray mask, held by the mask chuck, with X-rays, and an X-ray projection optical system for projecting the mask pattern of the reflection X-ray mask onto the wafer held by the wafer chuck with a predetermined magnification, the mask chuck comprising a static electricity generating mechanism for generating static electricity for attracting and holding the reflection X-ray mask by an electrostatic attracting force, said method comprising the steps of: 26. A method according to claim 25, wherein the X-rays include vacuum-ultraviolet rays or soft X-rays. 27. A device manufacturing method using an X-ray projection exposure apparatus comprising a mask chuck for holding a reflection X-ray mask having a mask pattern thereon, a wafer chuck for holding a wafer onto which the mask pattern is transferred, an X-ray illuminating system for illuminating the reflection X-ray mask, held by the mask chuck, with X-rays, and an X-ray projection optical system for projecting the mask pattern of the reflection X-ray mask onto the wafer held by the wafer chuck with a predetermined magnification, wherein the mask chuck is subjected to scanning movement and comprises a static electricity generating mechanism for generating static electricity for attracting and holding the reflection X-ray mask by an electrostatic attracting force, said method comprising the steps of: 28. A method according to claim 27, further comprising the steps of: 29. A method according to claim 28, wherein said electrostatic attracting force controlling step comprises the step of controlling the electrostatic attracting force to satisfy the following expression: 30. A method according to claim 27, wherein the X-rays include vacuum-ultraviolet rays or soft X-rays. 31. An x-ray projection exposure apparatus comprising: 32. An apparatus according to claim 31, wherein the reflection X-ray mask comprises an X-ray reflecting multilayer film, and wherein the mask pattern is made of an absorbing member formed on the X-ray reflecting multilayer film. 33. An apparatus according to claim 31, wherein the X-rays include vacuum-ultraviolet rays or soft X-rays. 34. An apparatus according to claim 31, further comprising a grounded earth pawl provided at least at a side of said mask stage for supporting the reflection X-ray mask. 35. An apparatus according to claim 31, wherein said mask stage comprises a ceramic material or a glass material. 36. An apparatus according to claim 31, further comprising a temperature control mechanism for controlling the temperature of said mask stage. 37. An apparatus according to claim 36, wherein said temperature control mechanism comprises means for supplying the inside of said mask stage with a temperature controlled medium, and a temperature sensor for detecting the temperature of said mask stage. 38. A device manufacturing method using an X-ray projection exposure apparatus comprising a mask stage for holding a reflection X-ray mask having a mask pattern thereon, a wafer stage for holding a wafer onto which the mask pattern is to be transferred, an X-ray illuminating system for illuminating the reflection X-ray mask, held by the mask stage, with X-rays, and an X-ray projection optical system for projecting the mask pattern of the reflection X-ray mask onto the wafer, wherein the mask stage comprises a static electricity generating mechanism for generating static electricity for attracting and holding the reflection X-ray mask by an electrostatic attracting force, said method comprising the steps of: 39. A method according to claim 38, wherein the X-rays include vacuum-ultraviolet rays or soft X-rays. 40. A device manufacturing method using an X-ray projection exposure apparatus comprising a mask stage for holding a reflection X-ray mask having a mask pattern thereon, a wafer stage for holding a wafer onto which the mask pattern is to be transferred, an X-ray illuminating system for illuminating the reflection X-ray mask, held by the mask stage, with X-rays, and an X-ray projection optical system for projecting the mask pattern of the reflection X-ray mask onto the wafer, wherein the mask stage comprises a static electricity generating mechanism for generating static electricity for attracting and holding the reflection X-ray mask by an electrostatic attracting force, said method comprising the steps of: 41. An X-ray projection exposure apparatus comprising: 42. A device manufacturing method using an X-ray projection exposure apparatus comprising a mask chuck for holding a reflection X-ray mask having a mask pattern thereon, a wafer chuck for holding a wafer onto which the mask pattern is transferred, an X-ray illuminating system for illuminating the reflection X-ray mask, held by the mask chuck, with X-rays, and an X-ray projection optical system for projecting the mask pattern of the reflection X-ray mask onto the wafer held by the wafer chuck with a predetermined magnification, the mask chuck comprising a static electricity generating mechanism for generating static electricity for attracting and holding the reflection X-ray mask by an electrostatic attracting force, said method comprising the steps of: 43. An X-ray projection exposure apparatus comprising: