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Main Authors: Rafighdoost, Jila, Kolenov, Dmytro, Pereira, Silvania F.
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2312.13290
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author Rafighdoost, Jila
Kolenov, Dmytro
Pereira, Silvania F.
author_facet Rafighdoost, Jila
Kolenov, Dmytro
Pereira, Silvania F.
contents It has been a widely growing interest in using silicon carbide (SiC)in high-power electronic devices. Yet, SiC wafers may contain killer defects that could reduce fabrication yield and make the device fall into unexpected failures. To prevent these failures from happening, it is very important to develop inspection tools that can detect, characterize and locate these defects in a non-invasive way. Current inspection techniques such as Dark Field or Bright field microscopy are effectively able to visualize most such defects; however, there are some scenarios where the inspection becomes problematic or almost impossible, such as when the defects are too small or have low contrast or if the defects lie deep into the substrate. Thus, an alternative method is needed to face these challenges. In this paper, we demonstrate the application of coherent Fourier scatterometry (CFS) as a complementary tool in addition to the conventional techniques to overcome different and problematic scenarios of killer defects inspection on SiC samples. Scanning electron microscopy (SEM)has been used to assess the same defects to validate the findings of CFS. Great consistency has been demonstrated in the comparison between the results obtained with CFS and SEM.
format Preprint
id arxiv_https___arxiv_org_abs_2312_13290
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Coherent Fourier Scatterometry for detection of killer defects on silicon carbide samples
Rafighdoost, Jila
Kolenov, Dmytro
Pereira, Silvania F.
Applied Physics
Materials Science
It has been a widely growing interest in using silicon carbide (SiC)in high-power electronic devices. Yet, SiC wafers may contain killer defects that could reduce fabrication yield and make the device fall into unexpected failures. To prevent these failures from happening, it is very important to develop inspection tools that can detect, characterize and locate these defects in a non-invasive way. Current inspection techniques such as Dark Field or Bright field microscopy are effectively able to visualize most such defects; however, there are some scenarios where the inspection becomes problematic or almost impossible, such as when the defects are too small or have low contrast or if the defects lie deep into the substrate. Thus, an alternative method is needed to face these challenges. In this paper, we demonstrate the application of coherent Fourier scatterometry (CFS) as a complementary tool in addition to the conventional techniques to overcome different and problematic scenarios of killer defects inspection on SiC samples. Scanning electron microscopy (SEM)has been used to assess the same defects to validate the findings of CFS. Great consistency has been demonstrated in the comparison between the results obtained with CFS and SEM.
title Coherent Fourier Scatterometry for detection of killer defects on silicon carbide samples
topic Applied Physics
Materials Science
url https://arxiv.org/abs/2312.13290