Patent Number: 
Section: claims

1. A charged particle beam exposure apparatus which exposes a substrate using a charged particle beam, comprising:first formation means for forming an image of a charged particle source which emits a charged particle beam;second formation means, which has an aperture array with a plurality of apertures, for forming a plurality of images of the charged particle source from the image of the charged particle source through the aperture array;a reduction electron optical system which reduces and projects the plurality of images of the charged particle source onto the substrate; andfirst astigmatism generation means, which is arranged between the charged particle source and the aperture array of the second formation means, for generating astigmatism when said first formation means forms the image of the charged particle source in order to correct astigmatism generated in said reduction electron optical system. 2. An apparatus according to claim 1, further comprising second astigmatism generation means for generating astigmatism in said reduction electron optical system, wherein out of astigmatisms generated in said reduction electron optical system, astigmatism which does not vary during exposure is corrected by said first astigmatism generation means while varying astigmatism is corrected by said second astigmatism generation means. 3. An apparatus according to claim 2, wherein said second astigmatism generation means is an electrostatic astigmatism generation means. 4. An apparatus according to claim 1, wherein said first astigmatism generation means is arranged between the charged particle source and the image of the charged particle source formed by said first formation means. 5. An apparatus according to claim 1, wherein said first astigmatism generation means is a magnetic astigmatism generation means. 6. A device manufacturing method comprising:an adjustment step of making a size of a charged particle beam in a scanning direction smaller than a size of a charged particle beam in a direction perpendicular to the scanning direction;an exposure step of exposing a substrate to a pattern using the charged particle beam adjusted in the adjustment step; anda development step of developing the substrate which has been exposed to the pattern in the exposure step. 7. A charged particle beam exposure method of exposing a substrate by scanning with a charged particle beam, comprisingan adjustment step of making a size of a charged particle beam in a scanning direction smaller than a size of a charged particle beam in a direction perpendicular to the scanning direction. 8. A method according to claim 7, further comprising:a first measurement step of measuring the size of the charged particle beam in the scanning direction; anda second measurement step of measuring the size of the charged particle beam in the direction perpendicular to the scanning direction,wherein a result of moving-averaging a result of the first measurement step and a result of the second measurement step are evaluated, and the adjustment step is executed based on a result of the evaluation. 9. A device manufacturing method,wherein a charged particle beam exposure method as defined in claim 7 is used to manufacture devices. 10. A charged particle beam exposure apparatus which exposes a substrate using a charged particle beam, comprising:a scanning unit which scans a substrate with a charged particle beam; andan adjusting unit which adjusts astigmatism of the charged particle beam on the basis of a scanning direction of the charged particle beam. 11. An apparatus according to claim 10, wherein said adjusting unit adjusts astigmatism of said charged particle beam such that a size in a scanning direction of the charged particle beam on said substrate becomes smaller than a size in a direction perpendicular to the scanning direction. 12. A device manufacturing method comprising:a scanning step of scanning a substrate with a charged particle beam;an adjustment step of adjusting astigmatism of the charged particle beam on the basis of a scanning direction of the charged particle beam;an exposure step of exposing a substrate to a pattern using the charged particle beam adjusted in the adjustment step; anda development step of developing the substrate which has been exposed to the pattern in the exposure step.