| 摘要 |
A massively parallel inspection and imaging system is provided which employs multiple focused beams to illuminate a specimen. Laser light energy passes through a relatively low resolution diffraction grating or digital optical element, which is either one or two dimensional, and concentrates the transmitted energy into multiple discrete directions or orders. The beams split by the diffraction grating pass through a beam expander or telescope and are recombined onto an optical element and diverted toward the specimen. On reflection toward the specimen, the beams diverge again toward a focusing objective. The resultant light thus comprises multiple focused beams, and a relatively large area of the specimen is illuminated simultaneously by these beams. Upon reflection of the light from the sample, light passes back through the focusing objective in multiple beams, and the beams converge toward the optical element and diverge outward in collimated beams. The collimated beams pass through a focusing lens, which brings all beams onto foci on a detector array. Scanning of patterned wafers by the system may occur using coordinated motion of both the scanning beam and the wafer. To achieve proper orientation and observation, the stage speed in the cross direction is set at the ratio of the distance between the first and last lines divided by the period of the scanner.
|
