Patent Number: 
Section: claims

1. A method of measuring an aerial image of a pattern corresponding to a semiconductor pattern to be formed by scanning the pattern using a scanner, the method comprising:generating an extreme ultra-violet (EUV) light using a light source;reflecting the generated EUV light using a mirror;focusing the reflected EUV light on a first portion of an EUV mask through a zoneplate lens, such that an incidence angle of the EUV light on the EUV mask is other than zero with respect to a normal to the EUV mask;sensing energy of the EUV light reflected from the EUV mask using a detector;focusing the reflected EUV light on a second portion of an EUV mask using the zoneplate lens; andsensing energy of the EUV light reflected from the second portion of the EUV mask using the detector. 2. The method as claimed in claim 1, wherein focusing the reflected EUV light includes using a zoneplate lens having a numerical aperture based on parameters of a scanner used to form a pattern through the EUV mask, the parameters of the scanner including a numerical aperture and a reduction magnification. 3. The method as claimed in claim 2, wherein NAdetector=NAscanner/n, where NAdetector denotes a NA of the detector, NAscanner denotes a NA of the scanner, and n denotes a reduction magnification of the scanner. 4. The method as claimed in claim 1, wherein focusing the reflected EUV light on the portion of the EUV mask includes focusing the EUV light at a same angle as an angle at which a scanner will be disposed with respect to the normal to the EUV mask. 5. The method as claimed in claim 1, wherein the zoneplate lens is disposed between the EUV mask and the mirror. 6. The method as claimed in claim 1, wherein the aerial image of the EUV mask is made based on sensed energy of the EUV light reflected from portions of the EUV mask. 7. The method as claimed in claim 1, further comprising converting the sensed energy into image information and storing the image information. 8. The method as claimed in claim 7, further comprising outputting an aerial image of the pattern of the EUV mask based on the stored information. 9. The method as claimed in claim 7, further comprising:moving the EUV mask in an x-axis direction and/or y-axis direction by a movable unit,wherein an EUV light is focused on a second portion of the EUV mask through the zoneplate lens. 10. The method as claimed in claim 9, wherein the zoneplate lens is disposed between the movable unit and the mirror. 11. The method as claimed in claim 1, wherein generating extreme ultraviolet light includes generating a high power femtosecond laser beam. 12. The method as claimed in claim 1, wherein the mirror is an X-ray mirror comprising a multi-layer structure including at least one molybdenum layer and at least one silicon layer, which are alternately arranged. 13. A method of patterning a semiconductor device, the method comprising:emitting a first EUV light from a first light source through a zoneplate lens toward a first portion of a photomask having circuit patterns thereon;detecting with a detector energy of the first EUV light reflected from the first portion of the photomask to store image information of the circuit patterns;emitting the first EUV light from the first light source through the zoneplate lens toward a second portion of the photomask,detecting with the detector energy of the first EUV light reflected from the second portion of the photomask to store image information of the circuit patterns;emitting a second EUV light toward the photomask through a focusing lens; andpatterning a surface of a semiconductor wafer using the second EUV light reflected from the photomask. 14. The method as claimed in claim 13, wherein emitting the first EUV light through the zoneplate lens includes using a zoneplate with a numerical aperture based on parameters of a scanner used to form a pattern through the EUV mask, the parameters of the scanner including a numerical aperture and a reduction magnification. 15. The method as claimed in claim 14, wherein NAdetector=NAscanner/n, where NAdetector denotes a NA of the detector, NAscanner denotes a NA of the scanner, and n denotes a reduction magnification of the scanner. 16. The method as claimed in claim 13, wherein the zoneplate lens is adapted to focus the EUV light on a portion of the EUV mask at a same angle as an angle at which the scanner will be disposed with respect to a normal line of the EUV mask. 17. A method of patterning a semiconductor device, the method comprising:emitting from a light source a first EUV light through a zoneplate lens toward a first portion of a photomask having circuit patterns thereon;detecting with a detector energy of the first EUV light reflected from the first portion of the photomask to store image information of the circuit patterns;emitting from the light source the first EUV light through the zoneplate lens toward a second portion of the photomask;detecting with the detector energy of the first EUV light reflected from the second portion of the photomask to store image information of the circuit patterns; andperforming an EUV scanning process by projecting a second EUV light reflected from the photomask on a surface of a semiconductor wafer. 18. The method as claimed in claim 17, wherein numerical aperture of the zoneplate lens is based on parameters of a scanner used to form a pattern through the EUV mask, the parameters of the scanner including a numerical aperture and a reduction magnification. 19. The method as claimed in claim 18, wherein NAdetector=NAscanner/n, where NAdetector denotes a NA of the detector, NAscanner denotes a NA of the scanner, and n denotes a reduction magnification of the scanner. 20. The method as claimed in claim 17, wherein the zoneplate lens is adapted to focus the EUV light on a portion of the EUV mask at a same angle as an angle at which the scanner will be disposed with respect to a normal line of the EUV mask.