1. http://www.TEAsystems.com Weir Reticle Haze Detection and Monitor What, Why and How to control reticle haze issues

2. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 2 Sections Reticle Haze Concepts Base Method of Weir Haze Detection Weir PW Characterization Weir DM macro setup of Weir PW method Weir DMA automation of input & output data

3. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 3 Reticle Haze Detection with Weir PW & Weir DMA Haze formation on reticle continues to be a significant problem for the semiconductor industry. Haze can be formed on the outside pellicle and on the quartz back side of the reticle. Major component of the haze is known to be aluminum sulfate that comes from the reticle cleaning process and Deep Ultra Violet interactions with residue. The reticle materials, the exposure wavelength, roughness of photomask and this haze will affect the resolution and process latitude.

4. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 4 Reticle Haze Sources Mask making materials Process residues Reticle container Fab or Scanner environment

5. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 5 Issues for reticle cleaning - for DUV lithography  Phase and transmittance change  Surface contamination - for VUV lithography  Phase and transmittance change  Surface contamination  ESD - for EUV lithography  Reflectance change  Affect of debris?

6. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 6 Mechanism for the formation of ammonium sulfate haze

7. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 7 Reticle Haze Influence Transmittance Reduction Transmittance reduction caused variations in the CD and DOF values. Aberrations will increase: Since the reticle is an element of the scanner optical train Process Window size will decrease and shift center

8. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 8 Reticle Haze Influence Transmittance Reduction CD Increase with transmittance loss for a 90nm A.P.S.M.

9. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 9 Reticle Haze Influences Dose Change Expose energy change with transmittance loss for different reticle. Backside glass haze can effect overall mask transmission and thus can cause a dose shift on the wafer. A dose shift can be serious because most of low k1 process run with a very small process window and cause serious yield issue.

10. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 10 Reticle Haze Influences Throughput Throughput will  decrease due to an increase dose required to make same line width.  change with transmittance loss for different reticles.

11. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 11 Sources of CD variation across the wafer Primary disturbances causing CD Uniformity (CDU) variations grouped upon their sources. Reticle transmission loss directly influences the effective dose  Indirectly increases aberrations in the optical train that result in ACLV CD Variation increase ReticleScannerTrack & Process Effective Focus Wafer flatness Device topography Substrate BARC coat Resist Film coat PEB Temp & Time Develop Exposure Dose Slit Uniformity FocusSetUp Chuck Flatness Up-Down Scan Flatness CD’s Transmission CDU Effective Dose Scan Linearity

12. http://www.TEAsystems.com Monitoring the process for Reticle Haze Haze is formed around the pellicle, on the quartz side of the mask and on the chrome side of the mask.

13. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 13 Haze Appearance Haze influence on the image can be symmetric or anti-symmetric:  Radial  Process induced  Exposure enhanced  Across-Reticle  Reticle Cleaning  Scattered and random  Equipment sourced Testing for Haze  Requires multiple points on field  Examine  relative CD uniformity  DoF  Optimum and IsoFocal Dose  Dose Uniformity Reticle Haze Clean reticle Process Induced Cleaning Residue Cleaning residue & process

14. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 14 Method of Reticle Haze Monitor Weir PW Weir PW Characterize Dose Uniformity Determine Normal Process Window levels for multiple points on the field Weir DM Setup Weir DM Macro to duplicate Weir PW analysis one-step processing for the wafer fab. Setup online trend charts for variables Weir DMA Automate data gathering with Weir DMA interface to factory control Automatically output critical process variables to factory- control system

15. http://www.TEAsystems.com Weir PW Dose Uniformity Setup for Initial Characterization Setup Focus-Dose or Dose Matrix Derive base-response of process

16. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 16 Bossung curve analysis anatomy A = Isofocal Dose  Dose at which feature size is independent of Focus B = Locus of Best Focus  “Best Focus” is located at the maxima or minima of each dose curve  The greater the curvature, the greater will be the aberrations of the system UCL/LCL  Upper and Lower Control Limits for the process EL  Exposure Latitude or the dose range over which the feature size lies between the UCL and LCL DoF  Depth of Focus or the focus range over which the feature size lies between the UCL and LCL Focus Response Analysis Feature Size Focus A One curve for each dose B UCL LCL DoF EL Curve “B” is highly sensitive to lens aberrations Reticle haze directly influences the aberrations of the tool.

17. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 17 Weir Dose Report These variables will be gathered by Weir DM & Weir DMA

18. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 18 Dose curves calculated at best focus Dose Response Analysis EL Upper Blue Curve Linear Dose curve that reflects the resist’s true response. Exposure Latitude (EL) can now be evaluated. Point-spread at each dose is the result of reticle feature size variance. Lower Red Curve Plotted Best Focus for each site. A discontinuity occurs with this data when the IsoFocal point is crossed.

19. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 19 Isofocal Analysis Dose Response Analysis Isofocal Analysis: All-sites on field, BCD features Vertical (black) and Horizontal (red) 1)Calculate IsoFocal dose for each feature and site Classic: IsoFocal point is found when the 2 nd derivative of the process window = 0 Bossung: IsoFocal deviant = the magnitude of the 3rd Bossung curve coefficient Isofocal point is at the minimum for the curve 2) Lower curves: Level of aberrations for the dose plotted as magnitude of 2 nd Bossung curve coefficient Isofocal deviant curves Aberration level at each dose

20. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 20 Optimum Field Response thru Dose BCD summarizes natural feature size response @ best Focus for each dose DoF computed when in control

21. http://www.TEAsystems.com Weir DM Daily Monitor Interface Macro-Encapsulation of Weir PW Analysis One-Step data selection and analysis. User customized: Graphics Statistics setup Variable Trend Tracking Variable ouput

22. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 22 Weir DM Macro Types Weir PSFM focus reticle analyses  Focus/Expo Matrix  Functionality  Best image analysis of lens aerial image  Requirements  Benchmark PSFM reticle  Initial dataset of a PSFM Focus matrix  Fixed-Focus Analysis  Functionality  Analysis of wafer flatness, photoresist flatness, process focus and exposure tool autofocus/ auto-leveling stability.  Requirements  Benchmark PSFM reticle  Initial dataset of PSFM fixed-focus, full-wafer  Same layout and exposure as monitor wafers will be  Same exposure as PSFM calibration tempalte Weir PW analyses  Raw Metrology  Reticle Haze and Process Window Monitor  Raw metrology and tool Monitor are same  Statistics and modeling on any metrology data set  Requirements  Initial data set with same exposure and layout as future daily monitors

23. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 23 Weir Macro setup for Process Window Analysis Weir PW Example data – Forms basis for template Template

24. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 24 Selecting the Weir DM Analysis type

25. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 25 FocusDosePWDose @ BF Select from 4 types of analysis Reticle Haze is best analyzed with the “Dose @ Best Focus” analysis

26. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 26 Weir DM Target Values Setup Variables are determined by user- data Automated culling and modeling supported

27. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 27 Selecting statistics for analysis & trend

28. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 28 Optimum Dose Trend for mixed OPC - BCD Dataset or date can be trended on abscissa

29. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 29 Reports that appear during the analysis of each data set. Upper chart summarizes the focus and dose for each site. Lower graph displays the final dose-plot for all five sites of one data set. Reports & Graphics for current dataset

30. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 30 Call-Log for Weir DM Can be used to track and perform analysis diagnostics.

31. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 31 Raw “Range” data for the 12 data sets analyzed. One interactive point, text is “yellow-note”, has been highlighted by the user’s mouse. Raw as well as modeled data trends

32. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 32 Reticle-Haze Sensitive Iso-Focal Dose

33. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 33 Reticle-Haze IsoFocal Dose Range

34. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 34 Feature-Size change with IsoFocal Dose

35. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 35 Isofocal Dose with Message added by user.

36. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 36 Summary Data Selection For Full-Field for Process-Window detection of Reticle Haze

37. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 37 User selections for monitoring

38. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 38 Reticle Haze can also influence Best Focus Uniformity Here Best Focus is calculated from the process- window Focus-Dose Matrix

39. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 39 Dose %Latitude for five and one site studies

40. http://www.TEAsystems.com Weir DMA - Daily Monitor Automation Automation of Weir DM for calling by shop-flow and other control systems. Includes input data specification, analysis logs, internal trends and data report outputs in text and html format.

41. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 41 Run-log format Default folder = %Weir DM home%  Default = Weir DM home folder  To change use “Tools/Options” menu and the DMA tab File Name  RemoteCall.Log  Format = ASCII Contents  Contains analysis summary plus any errors  Sample:  ____  Weir DMA: ver: 3.8.55‘ start of new analysis  System ID: 1C2CE5A7  Analysis Start: Wednesday, July 28, 2004 2:36:50 PM ‘ next line is the input command line  Cmd: -t "C:\Program Files\Weir Wavefront Engineering\Templates\DS1_FF_DMtemplate.XLT" -d 040525153141.txt - o D:\TEMP -x D:\TEMP  runDM Start: 2:36:50 PM  cmdLineParse Start: 2:36:50 PM‘ command line interpreted correctly  DM Start: 2:36:50 PM  runDMoutput Start: 2:36:59 PM‘ actual analysis start  Output: D:\Temp\040525153141_WeirDMA.csv‘ output to ASCII file  Output 56 statistics.  OutputXLS: D:\Temp\040525153141_WeirDMA.xls ‘ optional output to excel workbook  Output 56 statistics.  run DM successful‘ signifies completion without errors  Analysis End: Wednesday, July 28, 2004 2:37:00 PM …____

42. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 42 Reticle Haze & Full-Field Process Window Monitor Call DMA with Macro & Data Import data & save Display current- data graphic Update Trend charts Weir DMA output to ASCII (*.csv) and Excel (*.xls) files Weir DMA outputs status and any errors to RemoteCall.log Optional: Model wafer and field focus

43. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 43 Moving a Weir DM macro When moving a Weir DM macro to another computer:  Copy the macro (*.XLT) into the new computer’s template directory  Make sure the directories in the macro correspond to those in the new computer:  Data directory  Macro storage directory  Reticle storage directory  Insure the “Tools/Options” interface in the new computer specifies the proper data import filter.  Import Filter can also be called by Weir DMA

44. http://www.TEAsystems.com Weir DMA Example Analysis

45. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 45 Check Weir DMA Options Options interface is located on the Weir DM “Tools/Options” menu. Here we’ve changed the location of the DMA analysis log file “RemoteCall.log” to the “D:\Temp” folder. The Max/Min options will be used to limit the size of this log file.

46. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 46 Running Weir DMA – RemoteCall.log This is the RemoteCall.log format Switches used for the analysis are shown above-left Screen shows the status output of two successful data runs -t "C:\Program Files\Weir Wavefront Engineering\Templates\DS1_FF_DMtemplate.XLT" -d 040615210805.txt -o D:\TEMP -x D:\TEMP

47. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 47 RemoteCall.log This file will also show any errors encountered and should be monitored regularly. Weir DMA: ver: 3.8.56 System ID: 1C2CE5A7 Analysis Start: Friday, July 30, 2004 4:00:34 PM Cmd: -t "C:\Program Files\Weir Wavefront Engineering\Templates\DS1_FF_DMtemplate.XLT " -d 040615210805.txt -o D:\TEMP -x D:\TEMP runDM Start: 4:00:34 PM cmdLineParse Start: 4:00:34 PM DM Start: 4:00:34 PM runDMoutput Start: 4:00:43 PM Output: D:\Temp\040615210805_WeirDMA.csv Output 55 statistics. OutputXLS: D:\Temp\040615210805_WeirDMA.xls Output 55 statistics. run DM successful Analysis End: Friday, July 30, 2004 4:00:45 PM

48. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 48 Files in output directory Consist of two sets of ASCII and XLS output data files along with the call log.

49. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 49,FocusMin::,0,,[EndHeader],,,,,,[Results],,,,,,[Z (Mean)],,,Wafers:,1,,Sites/Die:,2,,#Dice:,5,,IFD:,0.199,,BF(Fitted):,0.000,,X Tilt(urad):,0.000,,Y Tilt(urad):,0.000,,Astigmatism:,0.135,,Curv(nm/cm2):,0.000,,IFDresid(um):,0.000,,StDEVresid(um):,0.000,,Count:,10,,Mean:,0.017,,Median:,0.036,,SEM:,0.018,,Maximum:,0.136,,Minimum:,-0.063,,Range:,0.199,,MinMax:,0.136,,StDev:,0.058,,Mean+3Sigma:,0.190,,[EndResults],,,[END],,,FocusMin::,0,,[EndHeader],,,,,,[Results],,,,,,[Z (Mean)],,,Wafers:,1,,Sites/Die:,2,,#Dice:,5,,IFD:,0.199,,BF(Fitted):,0.000,,X Tilt(urad):,0.000,,Y Tilt(urad):,0.000,,Astigmatism:,0.135,,Curv(nm/cm2):,0.000,,IFDresid(um):,0.000,,StDEVresid(um):,0.000,,Count:,10,,Mean:,0.017,,Median:,0.036,,SEM:,0.018,,Maximum:,0.136,,Minimum:,-0.063,,Range:,0.199,,MinMax:,0.136,,StDev:,0.058,,Mean+3Sigma:,0.190,,[EndResults],,,[END],, Output Data File Partial display of output file Specifications are in the manual. Each section of the data is summarized by a header line in “[]” brackets,[Data],,,Program:,Weir DMA,,,,,DataFile:,040525153141.txt,,DataFolder:,D:\Data\UMC\WeirDM Testing,,Template:,DS1_FF_DMtemplate.XLT,,TemplateFolder:,C:\Program Files\Weir Wavefront Engineering\Templates,,AnalysisDate:,7/28/2004,,AnalysisTime:,12:00:00 AM,,Tool:,,,Wafers:,1,,,,,[Header],,,DateTemplateSaved:,7/27/2004,,Analysis:,Fixed Focus,,FocusTemplate:,UMC DS5-Step2,,ConversionMethod:,All Sites,,ModelData:,True,,Statistics:,1,,Graphic:,1,,GraphicData:,0,,WaferFieldGraphic:,Wafer,,GraphicPlot:,Vector,,GraphicDataFormat:,All Points,,Comments:,,,Summary:,Analysis:Fixed Focus:All Sites (UMC DS5-Step2),[Data],,,Program:,Weir DMA,,,,,DataFile:,040525153141.txt,,DataFolder:,D:\Data\UMC\WeirDM Testing,,Template:,DS1_FF_DMtemplate.XLT,,TemplateFolder:,C:\Program Files\Weir Wavefront Engineering\Templates,,AnalysisDate:,7/28/2004,,AnalysisTime:,12:00:00 AM,,Tool:,,,Wafers:,1,,,,,[Header],,,DateTemplateSaved:,7/27/2004,,Analysis:,Fixed Focus,,FocusTemplate:,UMC DS5-Step2,,ConversionMethod:,All Sites,,ModelData:,True,,Statistics:,1,,Graphic:,1,,GraphicData:,0,,WaferFieldGraphic:,Wafer,,GraphicPlot:,Vector,,GraphicDataFormat:,All Points,,Comments:,,,Summary:,Analysis:Fixed Focus:All Sites (UMC DS5-Step2)

50. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 50 Trend summary The modeled summary of the 8 data files can be found if we go back into Weir DM

51. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 51 Data contents Plots the # of sites per field. Only last two data sets correspond to the 63 sites per field of the calibration template

52. Yield Enhancement thru Modeling TEA Systems http://www.TEAsystems.com - 52 Weir DMA features Features  Ability to limit the size of the RemoteCall.log file  Ability to select a window size and location in the trend plot for plots with many data entries.  DMA screen for status reporting of DMA calls  Interactive beyond RemoteCall.log file.  Done Aug. 2004 along with ability to control the length of display time for this screen.  Data Import Format included in Weir DM Template  Ability to select focus models  Ability to select full-field, full wafer and slit/scan models for focus or any metrology variable.  Optional Email notifications of OOC and problem data sets.