Patent Number: 
Section: claims

1. An ion implantation method comprising:proceeding an ion implantation scan pass to form a plurality of parallel ion implantation scan lines on a substrate, wherein said ion implantation scan pass is to form an ion implantation scan line parallel to a first direction via an ion beam, and then to shift said ion beam with a scan pitch along a second direction, which is on the plane of said substrate and is perpendicular to said first direction, and then to form another ion implantation scan line via said ion beam along the reverse direction of said first direction, and then to repeat the procedure to form said plurality of parallel ion implantation scan lines on said substrate;rotating said substrate by 180/n degree, shifting said ion beam with an interlace pitch T/2 n along said second direction and repeating one time of said ion implantation scan pass, wherein n is a positive integer equal to or larger than 2 and T is said scan pitch; andrepeating the step of rotating said substrate, the step of shifting said ion beam and the step of proceeding said ion implantation scan pass for 2 n−1 times to form interlaced and non-overlapped ion implantation scan lines on said substrate. 2. An ion implantation method according to claim 1, wherein the step of shifting said ion beam with said scan pitch is to move said substrate. 3. An ion implantation method according to claim 1, wherein the step of shifting said ion beam with said scan pitch is to move said ion beam. 4. An ion implantation method according to claim 1, wherein the step of shifting said ion beam with said interlace pitch is to move said substrate. 5. An ion implantation method according to claim 1, wherein the step of shifting said ion beam with said interlace pitch is to move said ion beam. 6. An ion implantation method according to claim 1, wherein said integer n is equal to 2. 7. A ion implantation method comprising:proceeding first time of an ion implantation scan pass to form a plurality of parallel ion implantation scan lines on a substrate, wherein said ion implantation scan pass is to form an ion implantation scan line parallel to a first direction via an ion beam, and then to shift said ion beam with a scan pitch along a second direction, which is on the plane of said substrate and is perpendicular to said first direction, and then to form another ion implantation scan line via said ion beam along the reverse direction of said first direction, and then to repeat the procedure to form said plurality of parallel ion implantation scan lines on said substrate;rotating said substrate by 90 degree and shifting said ion beam with an interlace pitch T/4 along said second direction, wherein T is said scan pitch;proceeding second time of said ion implantation scan pass;rotating said substrate by 90 degree and shifting said ion beam with said interlace pitch along said second direction;proceeding third time of said ion implantation scan pass;rotating said substrate by 90 degree and shifting said ion beam with said interlace pitch along said second direction; andproceeding forth time of said ion implantation scan pass to form perpendicularly interlaced and non-overlapped ion implantation scan lines on said substrate. 8. An ion implantation method according to claim 7, wherein the step of shifting said ion beam with said scan pitch is to move said substrate. 9. An ion implantation method according to claim 7, wherein the step of shifting said ion beam with said scan pitch is to move said ion beam. 10. An ion implantation method according to claim 7, wherein the step of shifting said ion beam with said interlace pitch is to move said substrate. 11. An ion implantation method according to claim 7, wherein the step of shifting said ion beam with said interlace pitch is to move said ion beam.