Patent Number: 056235291
Section: claims

1. An SOR exposure system, comprising: a synchrotron radiation source; and  a plurality of X-ray exposure apparatuses, connected to said synchrotron radiation source by a plurality of beam lines, for manufacturing semiconductor devices,  wherein one of said plurality of exposure apparatuses comprises a duplicating exposure apparatus for duplicating an original mask to form a duplicated mask by exposing the original mask and a substrate disposed proximate to each other with the synchrotron radiation to transfer a pattern of the original mask to the substrate to form the duplicated mask, and wherein a divergence angle of illumination radiation introduced into said duplicating exposure apparatus for duplicating the original mask is less than that introduced into the other exposure apparatuses.  X-ray intensity adjusting means, provided on the beam line to which said duplicating exposure apparatus is connected, for adjusting the intensity of the synchrotron radiation supplied to said duplicating exposure apparatus.  an illumination optical system including an X-ray mirror having a reflecting surface provided on each of said beam lines, the reflecting surface of said X-ray mirror provided on the beam line to which said duplicating exposure apparatus is connected having a greater surface roughness than that of other beam lines of said plurality of beam lines.  an illumination optical system including an X-ray mirror provided on each of said beam lines, the illumination optical system on the beam line to which said duplicating exposure apparatus is connected exhibiting a large angle of incidence of a beam of the synchrotron radiation on the X-ray mirror as compared with the angle of incidence of beams of synchrotron radiation on the X-ray mirrors of other beam lines of said plurality of beam lines.  a synchrotron radiation source; and  a plurality of X-ray exposure apparatuses, connected to said synchrotron radiation source by a plurality of beam lines, for manufacturing semiconductor devices,  wherein one of said plurality of exposure apparatuses comprises a duplicating exposure apparatus for duplicating an original mask to form a duplicated mask by exposing the original mask and a substrate disposed proximate to each other with the synchrotron radiation to transfer a pattern of the original mask to the substrate to form the duplicated mask, and wherein an intensity of illumination radiation introduced into said duplicating exposure apparatus for duplicating the original mask is less than that introduced into the other exposure apparatuses.  X-ray intensity adjusting means, provided on the beam line to which said duplicating exposure apparatus is connected, for adjusting the intensity of the synchrotron radiation supplied to said duplicating exposure apparatus.  an illumination optical system including an X-ray mirror having a reflecting surface provided on each of said beam lines, the reflecting surface of said X-ray mirror provided on the beam line to which said duplicating exposure apparatus is connected having a greater surface roughness than that of other beam lines of said plurality of beam lines.  an illumination optical system including an X-ray mirror provided on each of said beam lines, the illumination optical system on the beam line to which said duplicating exposure apparatus is connected exhibiting a large angle of incidence of a beam of the synchrotron radiation on the X-ray mirror as compared with the angle of incidence of beams of synchrotron radiation on the X-ray mirrors of other beam lines of said plurality of beam lines. 2. An SOR exposure system according to claim 1, wherein the beam line to which the duplicating exposure apparatus is connected to said synchrotron radiation source is longer than other beam lines of said plurality of beam lines. 3. An SOR exposure system according to claim 1, further comprising: 4. An SOR exposure system according to claim 1, wherein a wavelength of the synchrotron radiation supplied to said duplicating exposure apparatus is longer than a wavelength of the synchrotron radiation supplied to other exposure apparatuses of said plurality of exposure apparatuses. 5. An SOR exposure system according to claim 1, further comprising: 6. An SOR exposure system according to claim 1, further comprising: 7. An SOR exposure apparatus according to claim 1, wherein said duplicating exposure apparatus includes a proximity gap between an original mask and a substrate to be exposed which is smaller than that in other exposure apparatuses of said plurality of exposure apparatuses. 8. An SOR exposure system comprising: 9. An SOR exposure system according to claim 8, wherein the beam line to which the duplicating exposure apparatus is connected to said synchrotron radiation source is longer than other beam lines of said plurality of beam lines. 10. An SOR exposure system according to claim 8, further comprising: 11. An SOR exposure system according to claim 8, wherein a wavelength of the synchrotron radiation supplied to said duplicating exposure apparatus is longer than a wavelength of the synchrotron radiation supplied to other exposure apparatuses of said plurality of exposure apparatuses. 12. An SOR exposure system according to claim 8, further comprising: 13. An SOR exposure system according to claim 8, further comprising: 14. An SOR exposure apparatus according to claim 8, wherein said duplicating exposure apparatus includes a proximity gap between an original mask and a substrate to be exposed which is smaller than that in other exposure apparatuses of said plurality of exposure apparatuses.