Integrated low K dielectrics and etch stops

1. Field of the Invention A method of depositing and etching dielectric layers having low dielectric constants and etch rates that vary by at least 3:1 for formation of horizontal interconnects. The amount of carbon or hydrogen in the dielectric layer is varied by changes in deposition conditions to...

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Hauptverfasser:	Bjorkman, Claes H, Yu, Min Melissa, Shan, Hongquing, Cheung, David W, Yau, Wai-Fan, Liu, Kuowei, Chapra, Nasreen Gazala, Yin, Gerald, Moghadam, Farhad K, Huang, Judy H, Yost, Dennis, Tang, Betty, Kim, Yunsang
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Sprache:	eng
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creator	Bjorkman, Claes H Yu, Min Melissa Shan, Hongquing Cheung, David W Yau, Wai-Fan Liu, Kuowei Chapra, Nasreen Gazala Yin, Gerald Moghadam, Farhad K Huang, Judy H Yost, Dennis Tang, Betty Kim, Yunsang
description	1. Field of the Invention A method of depositing and etching dielectric layers having low dielectric constants and etch rates that vary by at least 3:1 for formation of horizontal interconnects. The amount of carbon or hydrogen in the dielectric layer is varied by changes in deposition conditions to provide low k dielectric layers that can replace etch stop layers or conventional dielectric layers in damascene applications. A dual damascene structure having two or more dielectric layers with dielectric constants lower than about 4 can be deposited in a single reactor and then etched to form vertical and horizontal interconnects by varying the concentration of a carbon:oxygen gas such as carbon monoxide. The etch gases for forming vertical interconnects preferably comprises CO and a fluorocarbon, and CO is preferably excluded from etch gases for forming horizontal interconnects.
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Field of the Invention A method of depositing and etching dielectric layers having low dielectric constants and etch rates that vary by at least 3:1 for formation of horizontal interconnects. The amount of carbon or hydrogen in the dielectric layer is varied by changes in deposition conditions to provide low k dielectric layers that can replace etch stop layers or conventional dielectric layers in damascene applications. A dual damascene structure having two or more dielectric layers with dielectric constants lower than about 4 can be deposited in a single reactor and then etched to form vertical and horizontal interconnects by varying the concentration of a carbon:oxygen gas such as carbon monoxide. 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Field of the Invention A method of depositing and etching dielectric layers having low dielectric constants and etch rates that vary by at least 3:1 for formation of horizontal interconnects. The amount of carbon or hydrogen in the dielectric layer is varied by changes in deposition conditions to provide low k dielectric layers that can replace etch stop layers or conventional dielectric layers in damascene applications. A dual damascene structure having two or more dielectric layers with dielectric constants lower than about 4 can be deposited in a single reactor and then etched to form vertical and horizontal interconnects by varying the concentration of a carbon:oxygen gas such as carbon monoxide. The etch gases for forming vertical interconnects preferably comprises CO and a fluorocarbon, and CO is preferably excluded from etch gases for forming horizontal interconnects.</abstract><oa>free_for_read</oa></addata></record>
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title	Integrated low K dielectrics and etch stops
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