OPTICAL MEASURING SYSTEM WITH ILLUMINATION PROVIDED THROUGH A VOID IN A COLLECTING LENS

US 20120057172A1
Filed: 09/08/2010
Published: 03/08/2012
Est. Priority Date: 09/08/2010
Status: Abandoned Application

First Claim

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1. An optical measurement system, comprising:

an illumination subsystem for directing an illumination beam at a surface under inspection;

a first optical subsystem for measuring a first characteristic of the surface under inspection, wherein the first optical subsystem includes a collecting lens for collecting light returned from the surface under inspection from the illumination beam and a first detector for detecting an intensity of the light collected by the collecting lens, wherein the collecting lens defines a void passing through the collecting lens and devoid of any lens material, and wherein the illumination subsystem directs the illumination system through the void passing through the collecting lens.

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Abstract

An optical measuring system includes a scatterometer in which an illumination beam is provided through an aperture in a lens used to collect light for the scattering detection. The void may be a slit in the lens, a missing portion along an edge of the lens, or another suitable void. Another detection channel may be provided to detect light returning through the void in the collecting lens, for example, a profilometer may be implemented by detecting interference between reflected light returning along the illumination path and light from the illumination source.

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34 Claims

1. An optical measurement system, comprising:
- an illumination subsystem for directing an illumination beam at a surface under inspection;
  
  a first optical subsystem for measuring a first characteristic of the surface under inspection, wherein the first optical subsystem includes a collecting lens for collecting light returned from the surface under inspection from the illumination beam and a first detector for detecting an intensity of the light collected by the collecting lens, wherein the collecting lens defines a void passing through the collecting lens and devoid of any lens material, and wherein the illumination subsystem directs the illumination system through the void passing through the collecting lens.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
- - 2. The optical measurement system of claim 1, further comprising a second optical subsystem for measuring a second characteristic of the surface under inspection, wherein light returned from the surface under inspection to a second detector of the second optical subsystem passes through the void in the collecting lens of the first optical subsystem.
  - 3. The optical measurement system of claim 2, wherein the first optical subsystem is a detector for detecting an intensity of light returned from a feature or deposit on the surface under inspection at one or more angles.
  - 4. The optical measurement system of claim 3, wherein the first detector of the first optical subsystem comprises an array of detectors extending in at least one dimension.
  - 5. The optical measurement system of claim 4, wherein the array of detectors is a two-dimensional array.
  - 6. The optical measurement system of claim 3, further comprising one or more additional specular detectors for detecting an intensity of light returned from a feature or deposit on the surface under inspection at one or more additional angles.
  - 7. The optical measurement system of claim 2, wherein the second optical subsystem detects light reflected from the surface under inspection.
  - 8. The optical measurement system of claim 7, wherein the second detector of the second optical subsystem includes an array of detectors extending in at least one dimension.
  - 9. The optical measurement system of claim 8, wherein the second detector of the second optical subsystem is a two-dimensional array.
  - 10. The optical measurement system of claim 2, wherein the second optical subsystem is an interferometric profilometer.
  - 11. The optical measurement system of claim 2, wherein the second optical subsystem is a deflection profilometer.
  - 12. The optical measurement system of claim 1, wherein the first optical subsystem is a scatterometer and the collecting lens collects light scattered from the surface under inspection.
  - 13. The optical measurement system of claim 1, wherein the illumination beam is substantially normal to the surface under inspection.
  - 14. The optical measurement system of claim 1, wherein an optical axis of the first optical subsystem is directed at an angle other than normal to the surface under inspection.
  - 15. The optical measurement system of claim 14, wherein the angle other than normal is between three and thirty degrees away from normal to the surface under inspection.
  - 16. The optical measurement system of claim 15, wherein the illumination beam is directed at the surface under inspection at an angle other than normal to the surface under inspection.
  - 17. The optical measurement system of claim 1, wherein the illumination beam is directed at the surface under inspection at an angle other than normal to the surface under inspection.
  - 18. The optical measurement system of claim 1, wherein the collecting lens further defines a second void passing through the collecting lens and devoid of any lens material for return of a specular beam of light, specularly reflected from the surface under inspection.
  - 19. The optical measurement system of claim 1, wherein an axis of the first optical subsystem is offset in rotation from an axis of illumination of the illumination subsystem.
  - 20. The optical measurement system of claim 19, wherein an optical axis of the first optical subsystem is directed at an angle substantially normal to the surface under inspection.
  - 21. The optical measurement system of claim 1, wherein the void is a slit in the collecting lens having two substantially parallel sides.
  - 22. The optical measurement system of claim 1, wherein the void is a substantially circular hole passing through the collecting lens.
  - 23. The optical measurement system of claim 1, wherein the collecting lens has a substantially circular profile perpendicular to an optical axis of the collecting lens, and wherein the void is a region at the edge of the lens and intersecting the circular profile.
  - 24. The optical measurement system of claim 1, wherein the collecting lens of the first optical subsystem further defines a second void passing through the collecting lens and devoid of any lens material, further comprising a second optical subsystem for measuring a second characteristic of the surface under inspection, wherein light returned from the surface under inspection to a second detector of the second optical subsystem passes through the second void in the collecting lens of the first optical subsystem.
  - 25. The optical measurement system of claim 1, wherein the surface under inspection is a top surface of a transparent object, and wherein the first detector indicates a depth of scattering from the transparent object beneath the surface under inspection as a displacement across a detection field of the detector.

26. A method of performing optical measurements, comprising:
- directing an illumination beam at a surface under inspection through a void defined by and passing through a collecting lens of a first optical subsystem, wherein the void is devoid of any lens material of the collecting lens;
  
  measuring a first characteristic of the surface under inspection using the first optical subsystem by collecting light returned from the surface under inspection from the illumination beam using the collecting lens; and
  
  first detecting an intensity of the light collected by the collecting lens.
- View Dependent Claims (27, 28, 29, 30, 31, 32, 33)
- - 27. The method of claim 26, further comprising measuring a second characteristic of the surface under inspection using a second optical subsystem by second detecting a characteristic of light returned from the surface under inspection to a second detector of the second optical subsystem through the void in the collecting lens of the first optical subsystem.
  - 28. The method of claim 26, wherein the first detecting detects an intensity of light scattered from a feature or deposit on the surface under inspection at one or more angles.
  - 29. The method of claim 28, wherein the first detecting detects an image of the light returned from the feature or deposit in at least one dimension.
  - 30. The method of claim 27, wherein the second detecting performs an interferometric measurement.
  - 31. The method of claim 27, wherein the second detecting performs a deflection measurement.
  - 32. The method of claim 26, wherein the collecting lens of the first optical subsystem further defines a second void passing through the collecting lens and devoid of any lens material, and wherein the method further comprises measuring a second characteristic of the surface under inspection using a second optical subsystem by second detecting a characteristic of light returned from the surface under inspection to a second detector of the second optical subsystem through the second void in the collecting lens of the first optical subsystem.
  - 33. The method of claim 26, wherein the surface under inspection is a top surface of a transparent object, and wherein the method further comprises determining a change in depth of scattering from the transparent object beneath the surface under inspection as variation in the intensity across a detection field of the detecting.

34. An optical inspection head, comprising:
- an illumination subsystem for directing an illumination beam at a surface under inspection;
  
  a first optical subsystem for measuring a first characteristic of the surface under inspection, wherein the first optical subsystem includes a collecting lens for collecting light returned from the surface under inspection from the illumination beam and a detector for detecting an intensity of the light collected by the collecting lens, wherein the collecting lens defines a void passing through the collecting lens and devoid of any lens material, and wherein the illumination subsystem directs the illumination system through the void passing through the collecting lens; and
  
  a profilometer for measuring a height of the surface under inspection, wherein light returned from the surface under inspection to the profilometer passes through the void in the collecting lens of the first optical subsystem.

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Current Assignee
Xyratex Technology Limited (Seagate Technology Holdings Plc)
Original Assignee
Xyratex Technology Limited (Seagate Technology Holdings Plc)
Inventors
Brunfeld, Andrei, Toker, Gregory, Clark, Bryan, Roscrow, Morey T.

Application Number

US12/877,527
Publication Number

US 20120057172A1
Time in Patent Office

Days
Field of Search
US Class Current

356/511
CPC Class Codes

G01B 11/24   for measuring contours or c...

G01B 11/2441   using interferometry

G01B 11/303   using photoelectric detecti...

G01N 21/474   Details of optical heads th...

G01N 21/4788   Diffraction for sizing part...

OPTICAL MEASURING SYSTEM WITH ILLUMINATION PROVIDED THROUGH A VOID IN A COLLECTING LENS

First Claim

1 Assignment

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Abstract

21 Citations

34 Claims

Specification

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OPTICAL MEASURING SYSTEM WITH ILLUMINATION PROVIDED THROUGH A VOID IN A COLLECTING LENS

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

21 Citations

34 Claims

Specification

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Solutions

Use Cases

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