Determining endpoint in etching processes using principal components analysis of optical emission spectra
First Claim
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1. A method for determining an etch endpoint, the method comprising:
- collecting intensity data representative of optical emission spectral wavelengths during a plasma etch process;
analyzing at least a portion of the collected intensity data into at most first and second Principal Components with respective Loadings and corresponding Scores; and
determining the etch endpoint using the respective Loadings and corresponding Scores of the second Principal Component as an indicator for the etch endpoint using Principal Components Analysis applied to archived optical emission spectral data.
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Abstract
A method is provided for determining an etch endpoint. The method includes collecting intensity data representative of optical emission spectral wavelengths during a plasma etch process. The method further includes analyzing at least a portion of the collected intensity data into at most first and second Principal Components with respective Loadings and corresponding Scores. The method also includes determining the etch endpoint using the respective Loadings and corresponding Scores of the second Principal Component as an indicator for the etch endpoint using Principal Components Analysis applied to archived optical emission spectral data.
39 Citations
42 Claims
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1. A method for determining an etch endpoint, the method comprising:
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collecting intensity data representative of optical emission spectral wavelengths during a plasma etch process;
analyzing at least a portion of the collected intensity data into at most first and second Principal Components with respective Loadings and corresponding Scores; and
determining the etch endpoint using the respective Loadings and corresponding Scores of the second Principal Component as an indicator for the etch endpoint using Principal Components Analysis applied to archived optical emission spectral data. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
selecting multiple wavelengths as indicator variables based on the respective Loadings of at least one of the first and the second Principal Components, the multiple wavelengths varying during the plasma process so that the etch endpoint can be determined by monitoring the multiple wavelengths.
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5. The method of claim 2 wherein determining the etch endpoint further comprises:
selecting multiple wavelengths as indicator variables based on the respective Loadings of the second Principal Component, the multiple wavelengths varying during the plasma process so that the etch endpoint can be determined by monitoring the multiple wavelengths.
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6. The method of claim 3 wherein determining the etch endpoint further comprises:
selecting multiple wavelengths as indicator variables based on the respective Loadings of the second Principal Component, the multiple wavelengths varying during the plasma process so that the etch endpoint can be determined by monitoring the multiple wavelengths.
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7. The method of claim 1 further comprising mean-scaling the at least the portion of the collected intensity data prior to analyzing the at least the portion of the collected intensity data.
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8. The method of claim 1, wherein analyzing the at least the portion of the collected intensity data into the at most first and second Principal Components includes using an eigenanalysis method.
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9. The method of claim 1, wherein analyzing the at least the portion of the collected intensity data into the at most first and second Principal Components includes using a singular value decomposition method.
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10. The method of claim 1, wherein analyzing the at least the portion of the collected intensity data into the at most first and second Principal Components includes using a power method.
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11. A method for etching a wafer, the method comprising:
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etching a wafer using a plasma process so that a light-emitting discharge is produced;
terminating the etching of the wafer when an etch endpoint is determined, wherein the determination of the etch endpoint further comprises;
collecting intensity data representative of optical emission spectral wavelengths during a plasma etch process;
analyzing at least a portion of the collected intensity data into at most first and second Principal Components with respective Loadings and corresponding Scores; and
determining the etch endpoint using the respective Loadings and corresponding Scores of the second Principal Component as an indicator for the etch endpoint using Principal Components Analysis applied to archived optical emission spectral data. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
selecting multiple wavelengths as indicator variables based on the respective Loadings of at least one of the first and the second Principal Components, the multiple wavelengths varying during the plasma process so that the etch endpoint can be determined by monitoring the multiple wavelengths.
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15. The method of claim 12 wherein determining the etch endpoint further comprises:
selecting multiple wavelengths as indicator variables based on the respective Loadings of the second Principal Component, the multiple wavelengths varying during the plasma process so that the etch endpoint can be determined by monitoring the multiple wavelengths.
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16. The method of claim 13 wherein determining the etch endpoint further comprises:
selecting multiple wavelengths as indicator variables based on the respective Loadings of the second Principal Component, the multiple wavelengths varying during the plasma process so that the etch endpoint can be determined by monitoring the multiple wavelengths.
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17. The method of claim 11 further comprising mean-scaling the at least the portion of the collected intensity data prior to analyzing the at least the portion of the collected intensity data.
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18. The method of claim 11, wherein analyzing the at least the portion of the collected intensity data into the at most first and second Principal Components includes using an eigenanalysis method.
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19. The method of claim 11, wherein analyzing the at least the portion of the collected intensity data into the at most first and second Principal Components includes using a singular value decomposition method.
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20. The method of claim 11, wherein analyzing the at least the portion of the collected intensity data into the at most first and second Principal Components includes using a power method.
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21. A method for determining an etch endpoint, the method comprising:
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collecting intensity data representative of optical emission spectral wavelengths during a plasma etch process;
analyzing the collected intensity data into at most first and second Principal Components; and
determining the etch endpoint using Loadings and Scores corresponding to the second Principal Component as an indicator for the etch endpoint using Principal Components Analysis applied to archived optical emission spectral data. - View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30)
selecting multiple wavelengths as indicator variables based on Loadings of at least one of the first and the second Principal Components, the multiple wavelengths varying during the plasma process so that the etch endpoint can be determined by monitoring the multiple wavelengths.
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25. The method of claim 22 wherein determining the etch endpoint using the Scores corresponding to the second Principal Component as an indicator further comprises:
selecting multiple wavelengths as indicator variables based on the Loadings corresponding to the second Principal Component, the multiple wavelengths varying during the plasma process so that the etch endpoint can be determined by monitoring the multiple wavelengths.
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26. The method of claim 23 wherein determining the etch endpoint using the Scores corresponding to the second Principal Component as the indicator further comprises:
selecting multiple wavelengths as indicator variables based on the Loadings corresponding to the second Principal Component, the multiple wavelengths varying during the plasma process so that the etch endpoint can be determined by monitoring the multiple wavelengths.
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27. The method of claim 21 further comprising mean-scaling the collected intensity data prior to analyzing the collected intensity data.
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28. The method of claim 21, wherein analyzing the collected intensity data into the at most first and second Principal Components includes using an eigenanalysis method.
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29. The method of claim 21, wherein analyzing the collected intensity data into the at most first and second Principal Components includes using a singular value decomposition method.
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30. The method of claim 21, wherein analyzing the collected intensity data into the at most first and second Principal Components includes using a power method.
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31. A method for etching a wafer, the method comprising:
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etching a wafer using a plasma process so that a light-emitting discharge is produced;
terminating the etching of the wafer when an etch endpoint is determined, wherein the determination of the etch endpoint further comprises;
collecting intensity data representative of optical emission spectral wavelengths during a plasma etch process;
analyzing the collected intensity data into at most first and second Principal Components; and
determining the etch endpoint using Loadings and Scores corresponding to the second Principal Component as an indicator for the etch endpoint using Principal Components Analysis applied to archived optical emission spectral data. - View Dependent Claims (32, 33, 34, 35, 36, 37, 38, 39, 40)
selecting multiple wavelengths as indicator variables based on Loadings of at least one of the first and the second Principal Components, the multiple wavelengths varying during the plasma process so that the etch endpoint can be determined by monitoring the multiple wavelengths.
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35. The method of claim 32 wherein determining the etch endpoint using the Scores corresponding to the second Principal Component as an indicator further comprises:
selecting multiple wavelengths as indicator variables based on the Loadings corresponding to the second Principal Component, the multiple wavelengths varying during the plasma process so that the etch endpoint can be determined by monitoring the multiple wavelengths.
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36. The method of claim 33 wherein determining the etch endpoint using the Scores corresponding to the second Principal Component as the indicator further comprises:
selecting multiple wavelengths as indicator variables based on the Loadings corresponding to the second Principal Component, the multiple wavelengths varying during the plasma process so that the etch endpoint can be determined by monitoring the multiple wavelengths.
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37. The method of claim 31 further comprising mean-scaling the collected intensity data prior to analyzing the collected intensity data.
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38. The method of claim 31, wherein analyzing the collected intensity data into the at most first and second Principal Components includes using an eigenanalysis method.
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39. The method of claim 31, wherein analyzing the collected intensity data into the at most first and second Principal Components includes using a singular value decomposition method.
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40. The method of claim 31, wherein analyzing the collected intensity data into the at most first and second Principal Components includes using a power method.
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41. A computer-readable, program storage device encoded with instructions that, when executed by a computer, perform a method, the method comprising:
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collecting intensity data representative of optical emission spectral wavelengths during a plasma etch process;
analyzing at least a portion of the collected intensity data into at most first and second Principal Components with respective Loadings and corresponding Scores; and
determining the etch endpoint using the respective Loadings and corresponding Scores of the second Principal Component as an indicator for the etch endpoint using Principal Components Analysis applied to archived optical emission spectral data.
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42. A computer programmed to perform a method, the method comprising:
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collecting intensity data representative of optical emission spectral wavelengths during a plasma etch process;
analyzing at least a portion of the collected intensity data into at most first and second Principal Components with respective Loadings and corresponding Scores; and
determining the etch endpoint using the respective Loadings and corresponding Scores of the second Principal Component as an indicator for the etch endpoint using Principal Components Analysis applied to archived optical emission spectral data.
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Specification
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Current AssigneeGlobalFoundries, Inc.
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Original AssigneeAdvanced Micro Devices, Inc.
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InventorsYue, Hongyu, Toprac, Anthony John, Wiseman, Joseph William
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Primary Examiner(s)Gulakowski, Randy
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Assistant Examiner(s)Ahmed, Shamim
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Application NumberUS09/491,506Time in Patent Office902 DaysField of Search216/59, 216/60, 438/9, 438/14, 438/16, 700/121US Class Current216/60CPC Class CodesA61K 39/00 Medicinal preparations cont...C07K 14/195 from bacteriaG01N 21/71 thermally excitedG01N 21/73 using plasma burners or tor...G05B 2219/32187 Correlation between control...G05B 2219/45031 Manufacturing semiconductor...H01J 2237/334 EtchingH01J 2237/3341 Reactive etchingH01J 37/32082 Radio frequency generated d...H01J 37/32935 Monitoring and controlling ...H01J 37/32963 End-point detectionH01J 37/32972 Spectral analysisH01J 37/3299 Feedback systemsH01L 21/67069 for drying etchingH01L 21/67253 Process monitoring, e.g. fl...H01L 22/20 Sequence of activities cons...H01L 22/26 Acting in response to an on...
