Printability And Inspectability Of Defects On The Euv Mask For Sub32nm Half Pitch Hvm Application

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Printability And Inspectability Of Defects On The Euv Mask For Sub32nm Half Pitch Hvm Application

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Author :
language : en
Publisher:
Release Date : 2011

Printability And Inspectability Of Defects On The Euv Mask For Sub32nm Half Pitch Hvm Application written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2011 with categories.

The availability of defect-free masks remains one of the key challenges for inserting extreme ultraviolet lithography (EUVL) into high volume manufacturing, yet little data is available for understanding native defects on real masks. In this paper, a full field EUV mask is fabricated to see the printability of various defects on the mask. Programmed pit defect shows that minimum printable size of pits could be 17 nm of SEVD from the AIT. However 23.1nm in SEVD is printable from the EUV ADT. Defect printability and identification of its source along from blank fabrication to mask fabrication were studied using various inspection tools. Capture ratio of smallest printable defects was improved to 80% using optimized stack of metrical on wafer and state-of-art wafer inspection tool. Requirement of defect mitigation technology using fiducial mark are defined.

Euv Actinic Defect Inspection And Defect Printability At The Sub 32 Nm Half Pitch

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Author :
language : en
Publisher:
Release Date : 2009

Euv Actinic Defect Inspection And Defect Printability At The Sub 32 Nm Half Pitch written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2009 with categories.

Extreme ultraviolet (EUV) mask blanks with embedded phase defects were inspected with a reticle actinic inspection tool (AIT) and the Lasertec M7360. The Lasertec M7360, operated at SEMA TECH's Mask Blank Development Center (MBDC) in Albany, NY, has a sensitivity to multilayer defects down to 40-45 nm, which is not likely sufficient for mask blank development below the 32 nm half-pitch node. Phase defect printability was simulated to calculate the required defect sensitivity for a next generation blank inspection tool to support reticle development for the sub-32 nm half-pitch technology node. Defect mitigation technology is proposed to take advantage of mask blanks with some defects. This technology will reduce the cost of ownership of EUV mask blanks. This paper will also discuss the kind of infrastructure that will be required for the development and mass production stages.

Mask Defect Verification Using Actinic Inspection And Defect Mitigation Technology

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Author :
language : en
Publisher:
Release Date : 2009

Mask Defect Verification Using Actinic Inspection And Defect Mitigation Technology written by and has been published by this book supported file pdf, txt, epub, kindle and other format this book has been release on 2009 with categories.

The availability of defect-free masks remains one of the key challenges for inserting extreme ultraviolet lithography (EUVL) into high volume manufacturing. The successful production of defect-free masks will depend on the timely development of defect inspection tools, including both mask blank inspection tools and absorber pattern inspection tools to meet the 22 nm half-pitch node. EUV mask blanks with embedded phase defects were inspected with a reticle actinic inspection tool (AIT) and the Lasertec M7360. The Lasertec M7360 is operated at SEMA TECH's Mask blank Development Center (MBDC) in Albany, with sensitivity to multilayer defects down to 40-45 nm, which is not likely sufficient for mask blank development below the 32 nm half-pitch node. Phase defect printability was simulated to calculate the required defect sensitivity for the next generation blank inspection tool to support reticle development for the sub-32 nm half-pitch technology node. This paper will also discuss the kind of infrastructure that will be required in the development and mass production stages.