Detection of contaminants on low wavelength masks
First Claim
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1. A testing method, comprising:
- testing a lithography mask using a combination of Raman techniques and infrared absorption techniques; and
using said testing to detect contaminants on said mask, including contaminants which may be substantially transparent at ultraviolet and visible wavelengths, wherein said lithography is carried out using 157 nm light, wherein said using comprises determining materials which are transparent at visible and ultraviolet inspection wavelengths, but opaque at 157 nm.
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Abstract
Testing of a mask which is intended to be used for low wavelength lithography. At lower wavelengths, e.g., 157 nm, certain contaminants may become visible, even though they were transparent under visible or ultraviolet light. A combination of Raman spectroscopy and infrared absorption spectroscopy are used to identify the contaminants.
11 Citations
24 Claims
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1. A testing method, comprising:
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testing a lithography mask using a combination of Raman techniques and infrared absorption techniques; and
using said testing to detect contaminants on said mask, including contaminants which may be substantially transparent at ultraviolet and visible wavelengths, wherein said lithography is carried out using 157 nm light, wherein said using comprises determining materials which are transparent at visible and ultraviolet inspection wavelengths, but opaque at 157 nm. - View Dependent Claims (2)
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3. A testing method, comprising:
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testing a lithography mask using a combination of Raman techniques and infrared absorption techniques; and
using said testing to detect contaminants on said mask, including contaminants which may be substantially transparent at ultraviolet and visible wavelengths, wherein said testing comprises first testing a known cleaned mask, to determine a background spectrum, and second testing a mask to be tested, and subtracting said background spectrum to obtain a resultant absorption spectrum.
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4. A testing method, comprising:
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testing a lithography mask using a combination of Raman techniques and infrared absorption techniques; and
using said testing to detect contaminants on said mask, including contaminants which may be substantially transparent at ultraviolet and visible wavelengths, wherein said lithography is carried out using 157 nm light, wherein said using comprises determining materials which are transparent at visible and ultraviolet inspection wavelengths, but opaque at 157 nm, wherein said testing comprises detecting scattered light and detecting transmitted light.
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5. A testing method, comprising:
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testing a mask using a first technique which uses a first kind of light to detect interaction with dipole moments of elements on the surface of said mask which comprises finding contaminants which are transparent under one of visible and/or ultraviolet light; and
testing said mask using a second technique simultaneously with the first technique which comprises finding contaminants which are transparent under one of visible and/or ultraviolet light, using a second kind of light different than the first kind of light. - View Dependent Claims (6, 7, 8, 9, 10, 11)
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12. A method, comprising:
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using both of a predetermined first and second measuring techniques to detect spectra of a plurality of different contaminants which are transparent at visible wavelengths, but which are detectable at lower than visible wavelengths to obtain spectra; and
comparing said spectra against said spectra of said plurality of different contaminants. - View Dependent Claims (13, 14, 15, 16)
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17. A tasting system, comprising:
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a light source which produces a Raman laser and an infra red absorption spectroscopy output; and
a detector which subtracts a background spectra from an acquired spectra, and detects a result of both IR absorption and Raman spectroscopy on a sample. - View Dependent Claims (18, 19)
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20. A method comprising:
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inspecting a mask surface using a first technique that does not depend on interacting with any material on the mask surface in a way that depends on the visible light passing characteristics of the material; and
also inspecting said mask surface using a second technique where the surface is visually inspected and testing a mask which is clean, to obtain a spectrum therefrom, and subtracting said spectrum form a final spectrum, to from a spectrum to be analyzed. - View Dependent Claims (21, 22, 23)
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24. A testing method, comprising:
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testing a mask using a first technique which uses a first kind of light to detect interaction with dipole moments of elements on the surface of said mask which comprises funding contaminants which are transparent under one of visible and/or ultraviolet light;
testing said mask using a second technique simultaneously with the first technique which comprises finding contaminants which are transparent under one of visible and/or ultraviolet light, using a second kind of light different than the first kind of light, and testing a mask which is clean, to obtain a spectrum therefrom, and subtracting said spectrum from a final spectrum, to form a spectrum to be analyzed.
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Specification
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Current AssigneeIntel Corporation
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Original AssigneeIntel Corporation
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InventorsGerth, Christopher, Ramamoorthy, Arun, Dao, Giang
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Primary Examiner(s)Le, Thien M.
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Assistant Examiner(s)LE, UYEN CHAU N
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Application NumberUS09/817,012Publication NumberTime in Patent Office886 DaysField of Search356/237.2, 356/237.3, 356/237.4, 356/237.5, 356/301, 356/72, 356/73, 250/559.45, 250/559.46, 250/338.1, 250/339.11, 250/339.12US Class Current356/237.4CPC Class CodesG01N 21/65 Raman scatteringG03F 7/70483 Information management; Act...
