Plasma Etching Processes for CMOS Devices Realization

Nonfiction, Science & Nature, Technology, Material Science, Electronics
Cover of the book Plasma Etching Processes for CMOS Devices Realization by , Elsevier Science
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Author: ISBN: 9780081011966
Publisher: Elsevier Science Publication: January 25, 2017
Imprint: ISTE Press - Elsevier Language: English
Author:
ISBN: 9780081011966
Publisher: Elsevier Science
Publication: January 25, 2017
Imprint: ISTE Press - Elsevier
Language: English

Plasma etching has long enabled the perpetuation of Moore's Law. Today, etch compensation helps to create devices that are smaller than 20 nm. But, with the constant downscaling in device dimensions and the emergence of complex 3D structures (like FinFet, Nanowire and stacked nanowire at longer term) and sub 20 nm devices, plasma etching requirements have become more and more stringent. Now more than ever, plasma etch technology is used to push the limits of semiconductor device fabrication into the nanoelectronics age. This will require improvement in plasma technology (plasma sources, chamber design, etc.), new chemistries (etch gases, flows, interactions with substrates, etc.) as well as a compatibility with new patterning techniques such as multiple patterning, EUV lithography, Direct Self Assembly, ebeam lithography or nanoimprint lithography. This book presents these etch challenges and associated solutions encountered throughout the years for transistor realization.

  • Helps readers discover the master technology used to pattern complex structures involving various materials
  • Explores the capabilities of cold plasmas to generate well controlled etched profiles and high etch selectivities between materials
  • Teaches users how etch compensation helps to create devices that are smaller than 20 nm
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Plasma etching has long enabled the perpetuation of Moore's Law. Today, etch compensation helps to create devices that are smaller than 20 nm. But, with the constant downscaling in device dimensions and the emergence of complex 3D structures (like FinFet, Nanowire and stacked nanowire at longer term) and sub 20 nm devices, plasma etching requirements have become more and more stringent. Now more than ever, plasma etch technology is used to push the limits of semiconductor device fabrication into the nanoelectronics age. This will require improvement in plasma technology (plasma sources, chamber design, etc.), new chemistries (etch gases, flows, interactions with substrates, etc.) as well as a compatibility with new patterning techniques such as multiple patterning, EUV lithography, Direct Self Assembly, ebeam lithography or nanoimprint lithography. This book presents these etch challenges and associated solutions encountered throughout the years for transistor realization.

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