Patent Number: 
Section: claims

1. A frequency adjusting apparatus comprising:a conveying unit configured to convey, in one direction, a wafer on which a plurality of elements are closely arranged;an ion gun for etching, the ion gun being configured to irradiate the wafer with an ion beam while the wafer is being conveyed;a pattern mask having a plurality of mask holes allowing only target areas of the wafer to be exposed, the pattern mask being disposed upstream of the wafer in a direction in which the ion beam travels; anda plurality of shutters each being configured to adjust an irradiation time during which a target area is irradiated with the ion beam, and thereby adjust a frequency in the target area,wherein each of the plurality of mask holes in the pattern mask corresponds to one area of the wafer;the plurality of mask holes being alternately displaced in a wafer conveying direction in which the wafer is conveyed, and arranged in a plurality of columns perpendicular to the wafer conveying direction;the shutters being arranged to correspond to the respective plurality of mask holes to individually open and close the corresponding plurality of mask holes; andfrequency adjustment, for areas in one column perpendicular to the wafer conveying direction, being performed in multiple steps. 2. The frequency adjusting apparatus according to claim 1, wherein each of the areas of the wafer includes a plurality of elements. 3. The frequency adjusting apparatus according to claim 2, wherein the conveying unit intermittently conveys the wafer at a pitch of one area of the wafer; andthe plurality of mask holes of the pattern mask being alternately displaced in the wafer conveying direction by a distance of one or more elements and arranged in two columns perpendicular to the wafer conveying direction. 4. The frequency adjusting apparatus according to claim 2, wherein the conveying unit intermittently conveys the wafer at a pitch of one area of the wafer; andthe plurality of mask holes of the pattern mask being alternately displaced in the wafer conveying direction by a distance of one or more pitches and arranged in two columns perpendicular to the wafer conveying direction. 5. The frequency adjusting apparatus according to claim 1, wherein the conveying unit intermittently conveys the wafer at a pitch of one area of the wafer; andthe plurality of mask holes of the pattern mask being alternately displaced in the wafer conveying direction by a distance of one or more elements and arranged in two columns perpendicular to the wafer conveying direction. 6. The frequency adjusting apparatus according to claim 5, wherein the shutters are divided into a first shutter group for closing the plurality of mask holes in a first column perpendicular to the wafer conveying direction and a second shutter group for closing the plurality of mask holes in a second column perpendicular to the wafer conveying direction; andfirst actuators configured to drive the first shutter group and second actuators configured to drive the second shutter group are arranged opposite each other on both sides of the pattern mask in the wafer conveying direction. 7. The frequency adjusting apparatus according to claim 1, wherein the conveying unit intermittently conveys the wafer at a pitch of one area of the wafer; andthe plurality of mask holes of the pattern mask being alternately displaced in the wafer conveying direction by a distance of one or more pitches and arranged in two columns perpendicular to the wafer conveying direction. 8. The frequency adjusting apparatus according to claim 7, wherein the shutters are divided into a first shutter group for closing the plurality of mask holes in a first column perpendicular to the wafer conveying direction and a second shutter group for closing the plurality of mask holes in a second column perpendicular to the wafer conveying direction; andfirst actuators configured to drive the first shutter group and second actuators configured to drive the second shutter group being arranged opposite each other on both sides of the pattern mask in the wafer conveying direction. 9. A frequency adjusting apparatus comprising:a conveying unit configured to convey, in one direction, a wafer on which a plurality of elements are closely arranged;a frequency-adjusting-material applying unit configured to apply a frequency adjusting material to the wafer while the wafer is being conveyed;a pattern mask having a plurality of mask holes allowing only target areas of the wafer to be exposed, the pattern mask being disposed upstream of the wafer in a direction in which the frequency adjusting material is applied; anda plurality of shutters, each being configured to adjust an application time during which the frequency adjusting material is applied to a target area, and thereby adjust a frequency in the target area,wherein each of the plurality of mask holes in the pattern mask corresponds to one area of the wafer;the plurality of mask holes being alternately displaced in a wafer conveying direction in which the wafer is conveyed, and being arranged in a plurality of columns perpendicular to the wafer conveying direction;the shutters being arranged to correspond to the respective plurality of mask holes to individually open and close the corresponding plurality of mask holes; andfrequency adjustment, for areas in one column perpendicular to the wafer conveying direction, being performed in multiple steps. 10. The frequency adjusting apparatus according to claim 9, wherein each of the areas of the wafer includes a plurality of elements. 11. The frequency adjusting apparatus according to claim 10, wherein the conveying unit intermittently conveys the wafer at a pitch of one area of the wafer; andthe plurality of mask holes of the pattern mask being alternately displaced in the wafer conveying direction by a distance of one or more elements and arranged in two columns perpendicular to the wafer conveying direction. 12. The frequency adjusting apparatus according to claim 10, wherein the conveying unit intermittently conveys the wafer at a pitch of one area of the wafer; andthe plurality of mask holes of the pattern mask being alternately displaced in the wafer conveying direction by a distance of one or more pitches and arranged in two columns perpendicular to the wafer conveying direction. 13. The frequency adjusting apparatus according to claim 9, wherein the conveying unit intermittently conveys the wafer at a pitch of one area of the wafer; andthe plurality of mask holes of the pattern mask being alternately displaced in the wafer conveying direction by a distance of one or more elements and arranged in two columns perpendicular to the wafer conveying direction. 14. The frequency adjusting apparatus according to claim 13, wherein the shutters are divided into a first shutter group for closing the plurality of mask holes in a first column perpendicular to the wafer conveying direction and a second shutter group for closing the plurality of mask holes in a second column perpendicular to the wafer conveying direction; andfirst actuators configured to drive the first shutter group and second actuators configured to drive the second shutter group being arranged opposite each other on both sides of the pattern mask in the wafer conveying direction. 15. The frequency adjusting apparatus according to claim 9, wherein the conveying unit intermittently conveys the wafer at a pitch of one area of the wafer; andthe plurality of mask holes of the pattern mask being alternately displaced in the wafer conveying direction by a distance of one or more pitches and arranged in two columns perpendicular to the wafer conveying direction. 16. The frequency adjusting apparatus according to claim 15, wherein the shutters are divided into a first shutter group for closing the plurality of mask holes in a first column perpendicular to the wafer conveying direction and a second shutter group for closing the plurality of mask holes in a second column perpendicular to the wafer conveying direction; andfirst actuators configured to drive the first shutter group and second actuators configured to drive the second shutter group being arranged opposite each other on both sides of the pattern mask in the wafer conveying direction.