Application of a new laser scanning pattern wafer inspection tool to leading edge memory and logic applications at Infineon Technologies

A new patterned wafer laser-based inspection tool has been introduced to the market place, incorporating double darkfield laser scanning technology. Developed from a well-known production-proven platform, the new system is intended to provide the sensitivity required for 0.18 /spl mu/m design rules,...

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Hauptverfasser:	Reuter, T., Bohmler, U., Steck, S., McLaren, M., Siqun Xiao, Howland Pinto, R.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Etching Inspection Light scattering Lighting Logic design Microelectronics Optical scattering Optical sensors Production Software algorithms
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description	A new patterned wafer laser-based inspection tool has been introduced to the market place, incorporating double darkfield laser scanning technology. Developed from a well-known production-proven platform, the new system is intended to provide the sensitivity required for 0.18 /spl mu/m design rules, with extendibility to 0.13 /spl mu/m. The inspection technology combines low angle laser illumination with dual darkfield scattered light collection channels. Enhancements to the illumination and collection optics have allowed for improved defect sensitivity and capture; and enhanced software algorithms have provided greater compensation for process variation, further increasing defect capture. The sensitivity performance and production worthiness of the tool were evaluated at Siemens Microelectronics Centre and the key results are presented. Both memory and logic products were evaluated, including memory products with 0.2 /spl mu/m design rule, and logic products with 0.2 /spl mu/m design rule. Layers from the front-end and back-end of the manufacturing process were evaluated. On memory products, sensitivity to defects occurring during capacitor and isolation trench formation was demonstrated, including etch defects deep in the trench structures and sub 0.1 /spl mu/m discrepancies in the formation of isolation trenches. Results from post-metal etch inspection demonstrated enhanced sensitivity in both array and periphery regions, largely achieved by exploiting the new ability to perform region-based optimisation, allowing full die area inspections. On logic products, surface foreign material less than 0.1 /spl mu/m in diameter was detected amidst logic structures and, in the same inspection pass, etch residuals affecting the memory cache area were also captured. The machine was installed and operated in a high capacity wafer production environment and adhered to all specified throughput, up-time and reliability matrices throughout the evaluation period.
doi_str_mv	10.1109/ASMC.1999.798253
format	Conference Proceeding
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On memory products, sensitivity to defects occurring during capacitor and isolation trench formation was demonstrated, including etch defects deep in the trench structures and sub 0.1 /spl mu/m discrepancies in the formation of isolation trenches. Results from post-metal etch inspection demonstrated enhanced sensitivity in both array and periphery regions, largely achieved by exploiting the new ability to perform region-based optimisation, allowing full die area inspections. On logic products, surface foreign material less than 0.1 /spl mu/m in diameter was detected amidst logic structures and, in the same inspection pass, etch residuals affecting the memory cache area were also captured. 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Advanced Semiconductor Manufacturing Conference and Workshop. ASMC 99 Proceedings (Cat. No.99CH36295)</title><addtitle>ASMC</addtitle><description>A new patterned wafer laser-based inspection tool has been introduced to the market place, incorporating double darkfield laser scanning technology. Developed from a well-known production-proven platform, the new system is intended to provide the sensitivity required for 0.18 /spl mu/m design rules, with extendibility to 0.13 /spl mu/m. The inspection technology combines low angle laser illumination with dual darkfield scattered light collection channels. Enhancements to the illumination and collection optics have allowed for improved defect sensitivity and capture; and enhanced software algorithms have provided greater compensation for process variation, further increasing defect capture. The sensitivity performance and production worthiness of the tool were evaluated at Siemens Microelectronics Centre and the key results are presented. 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Advanced Semiconductor Manufacturing Conference and Workshop. ASMC 99 Proceedings (Cat. No.99CH36295)</btitle><stitle>ASMC</stitle><date>1999</date><risdate>1999</risdate><spage>314</spage><epage>320</epage><pages>314-320</pages><issn>1078-8743</issn><eissn>2376-6697</eissn><isbn>9780780352179</isbn><isbn>0780352173</isbn><abstract>A new patterned wafer laser-based inspection tool has been introduced to the market place, incorporating double darkfield laser scanning technology. Developed from a well-known production-proven platform, the new system is intended to provide the sensitivity required for 0.18 /spl mu/m design rules, with extendibility to 0.13 /spl mu/m. The inspection technology combines low angle laser illumination with dual darkfield scattered light collection channels. Enhancements to the illumination and collection optics have allowed for improved defect sensitivity and capture; and enhanced software algorithms have provided greater compensation for process variation, further increasing defect capture. The sensitivity performance and production worthiness of the tool were evaluated at Siemens Microelectronics Centre and the key results are presented. Both memory and logic products were evaluated, including memory products with 0.2 /spl mu/m design rule, and logic products with 0.2 /spl mu/m design rule. Layers from the front-end and back-end of the manufacturing process were evaluated. On memory products, sensitivity to defects occurring during capacitor and isolation trench formation was demonstrated, including etch defects deep in the trench structures and sub 0.1 /spl mu/m discrepancies in the formation of isolation trenches. Results from post-metal etch inspection demonstrated enhanced sensitivity in both array and periphery regions, largely achieved by exploiting the new ability to perform region-based optimisation, allowing full die area inspections. On logic products, surface foreign material less than 0.1 /spl mu/m in diameter was detected amidst logic structures and, in the same inspection pass, etch residuals affecting the memory cache area were also captured. The machine was installed and operated in a high capacity wafer production environment and adhered to all specified throughput, up-time and reliability matrices throughout the evaluation period.</abstract><pub>IEEE</pub><doi>10.1109/ASMC.1999.798253</doi><tpages>7</tpages></addata></record>
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identifier	ISSN: 1078-8743
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language	eng
recordid	cdi_ieee_primary_798253
source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Etching Inspection Light scattering Lighting Logic design Microelectronics Optical scattering Optical sensors Production Software algorithms
title	Application of a new laser scanning pattern wafer inspection tool to leading edge memory and logic applications at Infineon Technologies
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