Apparatus and methods for overlay, alignment mark, and critical dimension metrologies based on optical interferometry
First Claim
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1. An interferometry system for examining a surface of an object, said system comprising:
- a source assembly that generates a first measurement beam and a second measurement beam;
a detector assembly that includes a first detector element and a second detector element;
an interferometer that includes a source imaging system that focuses the first measurement beam onto a first spot on a first plane that is in or on the object and focuses the second measurement beam onto a second spot on second plane below the first plane and an object imaging system that images the first spot onto the first detector element as a first interference beam to generate a first interference signal therefrom and images the second spot onto the second detector element as a second interference beam to generate a second interference signal therefrom, said object imaging system combining a first return measurement beam coming from the first spot with a first reference beam to produce the first interference beam and combining a second return measurement beam coming from the second spot with a second reference beam to produce the second interference beam, wherein the first measurement beam upon interaction with the object produces a first backscattered component and a first forward-scattered component and the second measurement beam upon interaction with the object produces a second backscattered component and a second forward-scattered component; and
a processor programmed to determine oblique angle-of-incidence information about a feature of the object by using the first and second backscattered components but not either of the first and second forward scattered components.
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Abstract
Methods and apparatus based on optical homodyne displacement interferometry, optical coherent-domain reflectometry (OCDR), and optical interferometric imaging are disclosed for overlay, alignment mark, and critical dimension (CD) metrologies that are applicable to microlithography applications and integrated circuit (IC) and mask fabrication and to the detection and location of defects in/on unpatterned and patterned wafers and masks. The metrologies may also be used in advanced process control (APC), in determination of wafer induced shifts (WIS), and in the determination of optical proximity corrections (OPC).
93 Citations
25 Claims
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1. An interferometry system for examining a surface of an object, said system comprising:
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a source assembly that generates a first measurement beam and a second measurement beam;
a detector assembly that includes a first detector element and a second detector element;
an interferometer that includes a source imaging system that focuses the first measurement beam onto a first spot on a first plane that is in or on the object and focuses the second measurement beam onto a second spot on second plane below the first plane and an object imaging system that images the first spot onto the first detector element as a first interference beam to generate a first interference signal therefrom and images the second spot onto the second detector element as a second interference beam to generate a second interference signal therefrom, said object imaging system combining a first return measurement beam coming from the first spot with a first reference beam to produce the first interference beam and combining a second return measurement beam coming from the second spot with a second reference beam to produce the second interference beam, wherein the first measurement beam upon interaction with the object produces a first backscattered component and a first forward-scattered component and the second measurement beam upon interaction with the object produces a second backscattered component and a second forward-scattered component; and
a processor programmed to determine oblique angle-of-incidence information about a feature of the object by using the first and second backscattered components but not either of the first and second forward scattered components. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. An interferometry system for examining a surface of an object, said system comprising:
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a source assembly that generates a first measurement beam and a second measurement beam;
a detector assembly that includes a first detector element and a second detector element; and
an interferometer that includes a source imaging system that focuses the first measurement beam onto a first spot on a first plane on or in the object and focuses the second measurement beam onto a second spot on a second plane that is below the first plane and an object imaging system that images the first spot onto the first detector element as a first interference beam to generate a first interference signal therefrom and images the second spot onto the second detector element as a second interference beam to generate a second interference signal therefrom, said object imaging system combining a first return measurement beam coming from the first spot with a first reference beam to produce the first interference beam and combining a second return measurement beam coming from the second spot with a second reference beam to produce the second interference beam, wherein the source imaging system causes the first and second measurement beams that arrive at the surface of the object to have average angles of incidence that are oblique to the surface of object, wherein each of the first and second measurement beams upon interaction with the object produces corresponding first and second backscattered and forward-scattered components, and wherein the object imaging system is configured to collect the first and second backscattered components but not either of the first and second forward scattered components to generate the first and second return measurement beams, respectively. - View Dependent Claims (13, 14, 15, 16, 17)
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18. An interferometry system for examining a surface of an object, said system comprising:
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a source assembly that generates a first array of measurement beams and a second array of measurement beams;
a detector assembly that includes a first array of detector elements and a second array of detector elements;
an interferometer that includes a source imaging system that focuses the first array of measurement beams onto a first array of spots on a first plane on or in the object and focuses the second array of measurement beams onto a second array of spots on a second plane that is below the first plane and an object imaging system that images the first array of spots onto the first array of detector elements as a first array of interference beams and images the second array of spots onto the second array of detector elements as a second array of interference beams, said object imaging system combining a first array of return measurement beams coming from the first array of spots with a first array of reference beams to produce the first array of interference beams and combining a second array of return measurement beams coming from the second array of spots with a second array of reference beams to produce the second array of interference beams, wherein the first and second arrays of measurement beams upon interaction with the surface of the object produce corresponding first and second arrays of backscattered components and corresponding first and second arrays of forward-scattered components; and
a processor programmed to determine oblique angle-of-incidence information about a feature on the object by using the first and second arrays of backscattered components but not the first and second arrays of forward scattered components. - View Dependent Claims (19, 20, 21, 22, 23)
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24. A method of interferometrically examining a surface of an object, said method comprising:
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generating a measurement beam;
focusing the measurement beam onto a first spot on a first plane on or in the object wherein upon interaction with the surface of the object at the first spot the measurement beam produces a backscattered component and a forward-scattered component;
combining a return measurement beam from the first spot with a reference beam to generate an interference beam;
generating an interference signal from the interference beam for the first spot;
focusing the measurement beam onto a second spot on a second plane on or in the object that is below the first plane wherein upon interaction with the surface of the object at the second spot the measurement beam produces a backscattered component and a forward-scattered component;
combining a return measurement beam from the second spot with a reference beam to generate an interference beam;
generating an interference signal from the interference beam for the second spot;
by using at least the interference signals for the first and second spots, determining oblique angle-of-incidence information about a feature of the object, wherein determining involves using the backscattered components but none of the forward scattered components from the first and second spots. - View Dependent Claims (25)
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Current AssigneeZetetic Institute
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Original AssigneeZetetic Institute
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InventorsHill, Henry Allen
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current356/512
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CPC Class CodesG01B 11/2441 using interferometryG01B 2290/70 Using polarization in the i...G01B 9/02002 using two or more frequenciesG01B 9/02014 by using pulsed lightG01B 9/02042 Confocal imagingG01B 9/02072 by calibration or testing o...G01B 9/02079 Quadrature detection, i.e. ...G03F 9/7034 LevelingG03F 9/7049 Technique, e.g. interferome...
