Patent Number: 
Section: claims

1. An illumination optical system for illuminating a surface to be illuminated, said system comprising: an integrator having a plurality of reflection surfaces, each of said plurality of reflection surfaces being effective to shape X-rays from a source into X-rays having an arcuate sectional shape; and  an optical system for superposing the X-rays having an arcuate section shape from said integrator, on the surface to be illuminated, and in an oblique direction with respect to that surface,  wherein said integrator and said optical system are disposed in a vacuum chamber. 2. An illumination optical system according to  claim 1 , further comprising an aperture disposed between said optical system and the surface to be illuminated, said aperture having an opening of an arcuate shape. claim 1 3. An illumination optical system for illuminating a surface to be illuminated, said system comprising: a mirror having a surface defined by a portion of a cylindrical surface, said cylindrical surface portion being effective to shape X-rays from a source into X-rays having an arcuate sectional shape; and  an optical system for illuminating the surface to be illuminated, with the X-rays having an arcuate sectional shape from said mirror and in an oblique direction with respect to that surface,  wherein said mirror and said optical system are disposed in a vacuum chamber. 4. An illumination optical system according to  claim 3 , further comprising an aperture disposed between said optical system and the surface to be illuminated, said aperture having an opening of an arcuate shape. claim 3 5. An exposure apparatus comprising: an integrator having a plurality of reflection surfaces, each of said plurality of reflection surfaces being effective to shape X-rays from a source into X-rays having an arcuate sectional shape;  an optical system for superposing the X-rays having an arcuate sectional shape from said integrator, on a reflection type mask and in an oblique direction with respect to a surface of the reflection type mask; and  a projection optical system for projecting a pattern of the reflection type mask onto a substrate, said projection optical system having a multilayered film mirror. 6. An apparatus according to  claim 5 , wherein the reflection type mask has a multilayered film mirror and an absorptive material formed on said multilayered film mirror, for absorbing X-rays, said absorptive material defining the pattern of the reflection type mask. claim 5 7. An apparatus according to  claim 5 , further comprising an aligning mechanism for aligning positions of the reflection type mask and the substrate. claim 5 8. An apparatus according to  claim 5 , further comprising an aperture disposed between said optical system and the reflection type mask, said aperture having an opening of an arcuate shape. claim 5 9. An apparatus according to  claim 5 , wherein said integrator, said optical system, and said projection optical system are disposed in a vacuum. claim 5 10. A device manufacturing method for an exposure apparatus including an integrator having a plurality of reflection surfaces, each of said plurality of reflection surfaces being effective to shape X-rays from a source into X-rays having an arcuate sectional shape, an optical system for superposing the X-rays having an arcuate sectional shape from said integrator, on a reflection type mask and in an oblique direction with respect to a surface of the reflection type mask, and a projection optical system for projecting a pattern of the reflection type mask onto a substrate, said projection optical system having a multilayered film mirror, the device manufacturing method comprising the steps of: exposing a substrate by use of the exposure apparatus; and  developing the exposed substrate. 11. An exposure apparatus comprising: a mirror having a surface defined by a portion of a cylindrical surface, said cylindrical surface portion being effective to shape X-rays from a source into X-rays having an arcuate sectional shape;  an optical system for illuminating a reflection type mask with the X-rays having an arcuate sectional shape from said mirror and in an oblique direction with respect to a surface of the reflection type mask; and  a projection optical system for projecting a pattern of the reflection type mask onto a substrate, said projection optical system having a multilayered film mirror. 12. An apparatus according to  claim 11 , wherein the reflection type mask has a multilayered film mirror and an absorptive material formed on said multilayered film mirror, for absorbing X-rays, said absorptive material defining the pattern of the reflection type mask. claim 11 13. An apparatus according to  claim 11 , further comprising an aligning mechanism for aligning positions of the reflection type mask and the substrate. claim 11 14. An apparatus according to  claim 11 , further comprising an aperture disposed between said optical system and the reflection type mask, said aperture having an opening of an arcuate shape. claim 11 15. An apparatus according to  claim 11 , wherein said mirror, said optical system, and said projection optical system are disposed in a vacuum. claim 11 16. A device manufacturing method for an exposure apparatus including a mirror having a surface defined by a portion of a cylindrical surface, said cylindrical surface portion being effective to shape X-rays from a source into X-rays having an arcuate sectional shape, an optical system for illuminating a reflection type mask with the X-rays having an arcuate sectional shape from said mirror and in an oblique direction with respect to a surface of the reflection type mask, and a projection optical system for projecting a pattern of the reflection type mask onto a substrate, said projection optical system having a multilayered film mirror, the device manufacturing method comprising the steps of: exposing a substrate by use of the exposure apparatus; and  developing the exposed substrate.