Patent Number: 062722026
Section: claims

1. An exposure method for printing a pattern onto a workpiece to be exposed, said method comprising: a first exposure step for forming, on the workpiece and by exposure, a transferred image of a first absorbing material pattern formed on a mask and having no periodic structure; and  a second exposure step for printing on the workpiece and by exposure, a diffraction pattern to be produced through Fresnel diffraction due to a second absorbing material pattern formed on the mask and having a periodic structure, the diffraction pattern having a period corresponding to 1/n of a period of the transferred image of the periodic structure pattern, where n is an integer not less than 2,  wherein the first and second exposure steps are performed simultaneously.  a first absorbing material pattern having no periodic structure, wherein a transferred image of the first absorbing material pattern can be formed on the workpiece;  a second absorbing material pattern having a periodic structure, wherein a diffraction pattern of a period corresponding to 1/n of the period of the transferred image of the periodic structure pattern, where n is an integer not less than 2, which diffraction pattern is to be produced through Fresnel diffraction due to the second absorbing material pattern, can be printed on the workpiece.  a substrate; and  a pattern formed on the substrate in accordance with a procedure which includes (i) an exposure process for printing a pattern onto a workpiece to be exposed, the exposure process including (a) a first exposure step for forming, on the workpiece and by exposure, a transferred image of a first absorbing material pattern formed on a mask and having no periodic structure, and (b) a second exposure step for printing, on the workpiece and by exposure, a diffraction pattern to be produced through Fresnel diffraction due to a second absorbing material pattern formed on the mask and having a periodic structure, the diffraction pattern having a period corresponding to 1/n of a period of the transferred image of the periodic structure pattern, where n is an integer not less than 2, and wherein the first and second exposure steps are performed simultaneously, and (ii) a development process for developing the pattern exposed workpiece, so that a circuit pattern can be formed on the workpiece.  an exposure process for printing a pattern onto a workpiece to be exposed, the exposure process including (i) a first exposure step for forming, on the workpiece and by exposure, a transferred image of a first absorbing material pattern formed on a mask and having no periodic structure, and (ii) a second exposure step for printing, on the workpiece and by exposure, a diffraction pattern to be produced through Fresnel diffraction due to a second absorbing material pattern formed on the mask and having a periodic structure, the diffraction pattern having a period corresponding to 1/n of a period of the transferred image of the periodic structure pattern, where n is an integer not less than 2, and wherein the first and second exposure steps are performed simultaneously; and  a development process for developing the pattern exposed workpiece, so that a circuit pattern can be formed on the workpiece. 2. A method according to claim 1, further comprising a third exposure step which is based on only a transferred image through an absorbing material pattern of the mask, wherein the third exposure step is performed at a timing separate from the first and second exposure steps, and exposures in the second and third exposure steps are performed superposedly upon the workpiece. 3. A method according to claim 2, wherein the transferred image through the exposure in the first exposure step and the diffraction pattern through the exposure in the second exposure step are formed in different regions on the workpiece, respectively. 4. A method according to claim 2, wherein the first absorbing material pattern having no periodic structure has the same structure as that of a corresponding portion of the absorbing material pattern in the third exposure step. 5. A method according to claim 2, wherein, in the second exposure step, the diffraction pattern is printed with an exposure amount lower than an exposure threshold level of the workpiece, and the third exposure step is performed so that the exposure amount at a portion of the diffraction pattern to be superposedly exposed by the third exposure step exceeds the exposure threshold level. 6. A method according to claim 2, wherein the diffraction pattern printed by the second exposure step is contributable to form a smallest linewidth pattern on the workpiece, in combination with a developing process for the workpiece. 7. A method according to claim 6, wherein a region where the diffraction pattern is to be formed through the second exposure step is larger than a region where the smallest linewidth pattern is to be formed. 8. A method according to claim 1, further comprising forming an alignment mark to be used for alignment of the workpiece, on the basis of one of an exposure through the second exposure step and a superposed exposure through the second and third exposure steps. 9. A method according to claim 1, wherein the first and second exposure steps are performed on the basis of an X-ray proximity exposure system. 10. A mask structure for use in printing a pattern on a workpiece to be exposed, said mask structure comprising: 11. A mask structure according to claim 10, wherein the diffraction pattern is produced on the workpiece, for superposed exposure of the workpiece in association with a transferred image of a third absorbing material pattern, separate from the first and second absorbing material patterns. 12. A mask structure according to claim 11, wherein the first absorbing material pattern having no periodic structure has the same structure as that of a corresponding portion of the third absorbing material pattern. 13. A mask structure according to claim 10, further comprising a separate absorbing material pattern having a periodic structure which is provided as an alignment mark portion thereon. 14. A mask structure according to claim 10, wherein said mask structure is adapted to be used with an X-ray proximity exposure system. 15. A device, comprising: 16. A device manufacturing method, comprising: 17. An exposure method according to claim 16, wherein the exposure process further includes a third exposure step which is based on only a transferred image through an absorbing material pattern of the mask, wherein the third exposure step is performed at a timing separate from the first and second exposure steps, and wherein exposures in the second and third exposure steps are performed superposedly upon the workpiece.