Journal
JOURNAL OF APPLIED PHYSICS
Volume 125, Issue 6, Pages -Publisher
AMER INST PHYSICS
DOI: 10.1063/1.5066356
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Funding
- Council for Science, Technology and Innovation (CSTI)
- Cross ministerial Strategic Innovation Promotion Program (SIP)
- Next-generation power electronics (funding agency: NEDO)
- Ministry of Education, Culture, Sports, Science and Technology of Japan
- [17H02781]
- [16H03830]
- [hp160226]
- [hp170253]
- [hp180187]
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We investigated a metal-oxide-semiconductor interface of dry-oxidized (0001) 4H-SiC, which was known as the most electrically deteriorated SiC MOSFET, by electrically detected magnetic resonance (EDMR) and observed a signal with an isotropic g factor (2.0024) and magnetic-field angular dependent signal widths. Judging from the g factor, the signal comes from sp(2)-bonded carbon clusters. In addition, we found that the angular dependence of EDMR signal widths was caused by two-dimensional dipolar broadening with exchange interaction between electron spins. However, the density of electron spins or carbon clusters was 5.4 x 10(13) cm(-2), which was not high enough for exchange interaction. Therefore, we propose inhomogeneous distribution of carbon clusters in the interface. At the interface, pi* peaks from sp(2)-bonded carbon atoms were detected by electron energy loss spectroscopy. Scanning the electron beams along the interface revealed uneven existence of the pi* peaks, which also proved that the sp(2)-bonded carbon atoms were distributed inhomogeneously in the interface. In addition, we found the formation of sp(2)-bonded carbon clusters at 4H-SiC(0001)/SiO2 interfaces and interaction between pi-conjugate electron spins on the carbon clusters by first principles calculation. Such carbon clusters generated electrically active states widely in the energy gap of 4H-SiC. The states result in the Fermi level pinning of the MOSFET. Published under license by AIP Publishing.
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