High resolution mapping of subsurface defects at SiO2/SiC interfaces by time-resolved scanning nonlinear dielectric microscopy
High resolution mapping of subsurface defects at SiO2/SiC interfaces by time-resolved scanning nonlinear dielectric microscopy
Monday, October 29, 2018: 1:25 PM
226BC (Phoenix Convention Center)
Summary:
High resolution mapping of density of interface states (Dit) at SiO2/4H-SiC interfaces was performed by time-resolved scanning nonlinear dielectric microscopy (tr-SNDM). The sizes of the non-uniform contrasts observed in the map of Dit were in the order of several tens of nanometres, which is far smaller than the value reported in the previous study (>100 nm). The simulation of the tr-SNDM measurement suggested that the spatial resolution of tr-SNDM is down to the tip radius of the cantilever used for the measurement and can be smaller than the lateral spread of the depletion layer width.
High resolution mapping of density of interface states (Dit) at SiO2/4H-SiC interfaces was performed by time-resolved scanning nonlinear dielectric microscopy (tr-SNDM). The sizes of the non-uniform contrasts observed in the map of Dit were in the order of several tens of nanometres, which is far smaller than the value reported in the previous study (>100 nm). The simulation of the tr-SNDM measurement suggested that the spatial resolution of tr-SNDM is down to the tip radius of the cantilever used for the measurement and can be smaller than the lateral spread of the depletion layer width.