Claims
- 1. An apparatus for detecting defects on a surface of a wafer comprising:
- a light source generating a beam of light;
- a photodetector;
- optics splitting said beam of light into a reference beam having a predetermined frequency and a detection beam having said predetermined frequency, said optics directing said reference beam at said photodetector through different optical paths, said optics directing said detection beam to the surface of the wafer, when incident upon a defect, said detection beam creates a scattered beam, said optics directing said scattered beam to said photodetector;
- a driver moving said surface with respect to said detection beam wherein said scattered beam is frequency shifted relative to said predetermined frequency; and
- a computer coupled to said photodetector for determining the presence of a defect on the surface of the wafer by analyzing an interference pattern from a superposition of said reference beam with said scattered beam.
- 2. An apparatus for detecting defects as recited in claim 1, wherein said light source comprises a laser.
- 3. An apparatus for detecting defects as recited in claim 1, wherein said light source comprises a white light source.
- 4. An apparatus for detecting defects as recited in claim 1, wherein said photodetector comprises a plurality of charge coupled devices.
- 5. An apparatus for detecting defects as recited in claim 1, wherein said photodetector comprises a spectrometer.
- 6. An apparatus for detecting defects as recited in claim 1, wherein said driver comprises a scanning stage and motor coupled to the wafer for moving the wafer relative to said detection beam.
- 7. An apparatus for detecting defects as recited in claim 1, wherein said optics comprise a mask, said mask having an elongated slit.
- 8. An apparatus for detecting defects as recited in claim 1, wherein said optics comprises a first beamsplitter for splitting said light beam into said reference beam and said detection beam.
- 9. An apparatus for detecting defects as recited in claim 8, wherein said optics comprises a first mirror and a second mirror that directs said reference beam and said detection beam respectively at a near-grazing angle to the surface of the wafer.
- 10. An apparatus for detecting defects as recited in claim 9, wherein said optics comprise a third and fourth mirror, said third mirror directing said reference beam from said first beamsplitter to said first mirror and said fourth mirror directing said detection beam to said second mirror.
- 11. An apparatus for detecting defects as recited in claim 9, further comprising a first and second converging lens, said first converging lens focusing said reference beam on an area of said surface and said second lens focusing said detection beam on said area of said surface.
- 12. An apparatus for detecting defects as recited in claim 11, wherein said optics comprise a second beamsplitter, said second beamsplitter directing light scattered from a defect to said light detector.
- 13. An apparatus for detecting defects as recited in claim 1, wherein said optics comprise a beamsplitter, an aluminized right angle prism, a porro-prism, a right angle prism and a first, a second, a third and a fourth converging lens, said beamsplitter splitting said beam of light from said light source into said reference beam and said detection beam, said beamsplitter directing said reference beam at said right angle prism which redirects said reference beam at said porro prism, said porro prism directing said reference beam through said first lens which focuses s aid reference beam on said aluminized right angle prism, said aluminized right angle prism redirecting said reference beam to said photodetector, said beamsplitter directing said detection beam through said second lens which focuses said detection beam on said aluminized right angle prism, said aluminized right angle prism directing said detection beam to the surface through said third lens which collimates said detection beam, said fourth lens focusing said scattered beam from said surface to said photodetector.
- 14. An apparatus for detecting defects as recited in claim 13, wherein said optics are coupled within a housing, said housing coupled to said driver for moving said housing with respect to said surface.
- 15. An apparatus for detecting defects as recited in claim 1, wherein said optics comprise a first and second beamsplitter, a first and second lens and a mirror, said first beamsplitter splitting said beam of light into said reference beam and a detection beam, said beamsplitter directing said reference beam through said first lens, said first lens focusing said reference beam to a predetermined point before said first mirror, said first mirror directing said reference beam to said second beamsplitter, said first beamsplitter directing said detection beam at the surface to create a scattered beam, said second beamsplitter superimposing said scattered beam and said reference beam to create a superposed beam and directing said superposed beam to said second lens which focuses said superposed beam on said photodetector.
- 16. An apparatus for detecting defects as recited in claim 15, wherein said drive means comprises a scanning stage, said scanning stage moving said wafer at a predetermined angle with respect to a longitudinal axis of said wafer.
- 17. An apparatus for detecting defects as recited in claim 1, further comprising a phase jitter detection means for determining a reference signal corresponding to a phase jitter of the movement of said wafer.
- 18. An apparatus for detecting defects as recited in claim 17, wherein said phase jitter detection means comprises a Michelson interferometer.
- 19. An apparatus for detecting defects as recited in claim 18, wherein said Michelson interferometer comprises a first reflector mounted to a scanning stage, a beamsplitter, a second reflector and second light source, said beamsplitter directing a first beam to said first reflector and directing a second beam of light to said second reflector, said beamsplitter combining light reflected from said first reflector and said second into a phase jitter beam, said photodetector receiving said phase jitter beam, said computer calculating said defect using said phase jitter beam and said superposition of said reference beam and said scattered beam.
- 20. An apparatus for detecting defects as recited in claim 17, wherein said phase jitter detection means comprises a grating adjacent to a surface of a scanning stage coupled to said driver, said phase jitter detection means further comprising a first phase jitter, beamsplitter, a second phase jitter beamsplitter, a phase jitter mirror and a first and second phase jitter lens, said first phase jitter beamsplitter directing a phase jitter detection beam to said surface, and directing a phase jitter reference beam through said first phase jitter lens, to said phase jitter mirror which redirects said phase jitter reference beam to said second phase jitter beamsplitter, said second phase jitter beamsplitter superposing said phase jitter detection beam and said phase jitter reference beam into a superposed beam and redirecting said superposed beam through said second phase jitter lens to said photodetector.
- 21. An apparatus for detecting defects as recited in claim 1, wherein said driver moves said surface in a localized oscillatory motion, said computer sampling a number of samples of said scattered beam during said oscillatory motion and calculating the presence of a defect using said number of samples.
- 22. An apparatus for detecting defects as recited in claim 21, wherein said localized oscillatory motion includes moving said surface at incremental steps of quarter of a wavelength of the light source, said computer sampling said surface during said incremental steps.
- 23. An apparatus for detecting defects as recited in claim 22, further comprising a diaphragm coupled to said driver and a mounting plate coupled to said diaphragm, said diaphragm moving said mounting plate a distance proportional to a movement of said driver.
- 24. An apparatus for detecting defects as recited in claim 22, further comprising a phase jitter detection means for determining a reference signal corresponding to a phase jitter of a movement of said wafer.
- 25. An apparatus for detecting defects as recited in claim 24, wherein said phase jitter detection means comprises a Michelson interferometer.
- 26. An apparatus for detecting defects as recited in claim 25, wherein said Michelson interferometer comprises a first reflector mounted to a scanning stage, a beamsplitter, a second reflector and second light source, said beamsplitter directing a first beam to said first reflector and directing a second beam of light to said second reflector, said beamsplitter combining light reflected from said first reflector and said second into a phase jitter beam, said photodetector receiving said phase jitter beam, said computer calculating said defect using said phase jitter beam and said superposition of said reference beam and said scattered beam.
- 27. An apparatus for detecting defects as recited in claim 24, wherein said phase jitter detection means comprises a grating adjacent to a surface of a scanning stage coupled to said driver, said phase jitter detection means further comprising a first phase jitter beamsplitter, a second phase jitter beamsplitter, a phase jitter mirror and first and second phase jitter lenses, said first phase jitter beamsplitter directing a phase jitter detection beam to said surface, and directing a phase jitter reference beam through said first phase jitter lens, to said phase jitter mirror which redirects said phase jitter reference beam to said second phase jitter beamsplitter, said second phase jitter beamsplitter superimposing said phase jitter detection beam and said phase jitter reference beam into a superposed beam and redirecting said superposed beam through said second phase jitter lens to said photodetector.
- 28. An apparatus for detecting defects on a surface of a wafer comprising:
- a light source generating a beam of light;
- a photodetector;
- optics splitting said beam of light into a reference beam and a detection beam, said optics directing said reference beam at said photodetector through different optical paths, said optics directing said detection beam to the surface of the wafer, when incident upon a defect, said detection beam creates a scattered beam, said optics directing said scattered beam to said photodetector;
- a driver moving said surface with respect to said detection beam;
- a computer coupled to said photodetector for determining the presence of a defect on the surface of the wafer by analyzing an interference pattern from a superposition of said reference beam with said scattered beam; and,
- a phase jitter detection means for determining a reference signal corresponding to a phase jitter of the movement of said wafer.
- 29. An apparatus for detecting defects as recited in claim 28, wherein said phase jitter detection means comprises a Michelson interferometer.
- 30. An apparatus for detecting defects as recited in claim 29, wherein said Michelson interferometer comprises a first reflector mounted to a scanning stage, a beamsplitter, a second reflector and second light source, said beamsplitter directing a first beam to said first reflector and directing a second beam of light to said second reflector, said beamsplitter combining light reflected from said first reflector and said second into a phase jitter beam, said photodetector receiving said phase jitter beam, said computer calculating said defect using said phase jitter beam and said superposition of said reference beam and said scattered beam.
- 31. An apparatus for detecting defects as recited in claim 28, wherein said phase jitter detection means comprises a grating adjacent to a surface of a scanning stage coupled to said driver, said phase jitter detection means further comprising a first phase jitter, beamsplitter, a second phase jitter beamsplitter, a phase jitter mirror and a first and second phase jitter lens, said first phase jitter beamsplitter directing a phase jitter detection beam to said surface, and directing a phase jitter reference beam through said first phase jitter lens, to said phase jitter mirror which redirects said phase jitter reference beam to said second phase jitter beamsplitter, said second phase jitter beamsplitter superposing said phase jitter detection beam and said phase jitter reference beam into a superposed beam and redirecting said superposed beam through said second phase jitter lens to said photodetector.
- 32. An apparatus for detecting defects as recited in claim 28, wherein said driver moves said surface in a localized oscillatory motion, said computer sampling a number of samples of said scattered beam during said oscillatory motion and calculating the presence of a defect using said number of samples, and wherein said localized oscillatory motion includes moving said surface at incremental steps of quarter of a wavelength of the light source, said computer sampling said surface during said incremental steps.
- 33. An apparatus for detecting defects as recited in claim 32, wherein said phase jitter detection means comprises a Michelson interferometer.
- 34. An apparatus for detecting defects as recited in claim 33, wherein said Michelson interferometer comprises a first reflector mounted to a scanning stage, a beamsplitter, a second reflector and second light source, said beamsplitter directing a first beam to said first reflector and directing a second beam of light to said second reflector, said beamsplitter combining light reflected from said first reflector and said second into a phase jitter beam, said photodetector receiving said phase jitter beam, said computer calculating said defect using said phase jitter beam and said superposition of said reference beam and said scattered beam.
- 35. An apparatus for detecting defects as recited in claim 32, wherein said phase jitter detection means comprises a grating adjacent to a surface of a scanning stage coupled to said driver, said phase jitter detection means further comprising a first phase jitter beamsplitter, a second phase jitter beamsplitter, a phase jitter mirror and first and second phase jitter lenses, said first phase jitter beamsplitter directing a phase jitter detection beam to said surface, and directing a phase jitter reference beam through said first phase jitter lens, to said phase jitter mirror which redirects said phase jitter reference beam to said second phase jitter beamsplitter, said second phase jitter beamsplitter superimposing said phase jitter detection beam and said phase jitter reference beam into a superposed beam and redirecting said superposed beam through said second phase jitter lens to said photodetector.
- 36. An apparatus for detecting defects on a surface of a wafer comprising:
- a light source generating a beam of light;
- a photodetector;
- optics splitting said beam of light into a reference beam having a predetermined frequency and a detection beam having said predetermined frequency, said optics directing said reference beam at said photodetector through different optical paths, said optics directing said detection beam to the surface of the wafer, when incident upon a defect, said detection beam creates a scattered beam, said optics directing said scattered beam to said photodetector;
- a driver configured to move the wafer in a direction substantially normal to said surface and with respect to said detection beam wherein said scattered beam is frequency shifted relative to said predetermined frequency; and,
- a computer coupled to said photodetector for determining the presence of a defect on the surface of the wafer by analyzing an interference pattern from a superposition of said reference beam with said scattered beam.
- 37. An apparatus for detecting defects as recited in claim 36, wherein said optics comprise a beamsplitter, an aluminized right angle prism, a porro-prism, a right angle prism and a first, a second, a third and a fourth converging lens, said beamsplitter splitting said beam of light from said light source into said reference beam and said detection beam, said beamsplitter directing said reference beam at said right angle prism which redirects said reference beam at said porro prism, said porro prism directing said reference beam through said first lens which focuses said reference beam on said aluminized right angle prism, said aluminized right angle prism redirecting said reference beam to said photodetector, said beamsplitter directing said detection beam through said second lens which focuses said detection beam on said aluminized right angle prism, said aluminized right angle prism directing said detection beam to the surface through said third lens which collimates said detection beam, said fourth lens focusing said scattered beam from said surface to said photodetector.
- 38. An apparatus for detecting defects as recited in claim 37, wherein said optics are coupled within a housing, said housing coupled to said driver for moving said housing with respect to said surface.
- 39. An apparatus for detecting defects as recited in claim 36, wherein said driver moves said surface in a localized oscillatory motion, said computer sampling a number of samples of said scattered beam during said oscillatory motion and calculating the presence of a defect using said number of samples.
- 40. An apparatus for detecting defects as recited in claim 39, wherein said localized oscillatory motion includes moving said surface at incremental steps of quarter of a wavelength of the light source, said computer sampling said surface during said incremental steps.
- 41. An apparatus for detecting defects as recited in claim 40, further comprising a diaphragm coupled to said driver and a mounting plate coupled to said diaphragm, said diaphragm moving said mounting plate a distance proportional to a movement of said driver.
- 42. An apparatus for detecting defects as recited in claim 36, further comprising a phase jitter detection means for determining a reference signal corresponding to a phase jitter of the movement of said wafer.
- 43. An apparatus for detecting defects as recited in claim 42, wherein said phase jitter detection means comprises a Michelson interferometer.
- 44. An apparatus for detecting defects as recited in claim 43, wherein said Michelson interferometer comprises a first reflector mounted to a scanning stage, a beamsplitter, a second reflector and second light source, said beamsplitter directing a first beam to said first reflector and directing a second beam of light to said second reflector, said beamsplitter combining light reflected from said first reflector and said second into a phase jitter beam, said photodetector receiving said phase jitter beam, said computer calculating said defect using said phase jitter beam and said superposition of said reference beam and said scattered beam.
RELATED APPLICATION
The application claims priority to provisional application 60/026,173 filed on Sep. 12, 1996.
Government Interests
This invention was made with government support under contract F33615-96-C-5108 awarded by the United States Air Force. The government has certain rights in this invention.
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