Add to ORKGMinority-Carrier diffusion lengths of n-type 6H-SiC were measured using the electron-beam induced current (EBIC) technique. Experimental values of primary beam current, EBIC, and beam voltage were obtained for a variety of SIC samples. This data was used to calculate experimental diode efficiency vs. beam voltage curves. These curves were fit to theoretically calculated efficiency curves, and the diffusion length and metal layer thickness were extracted. The hole diffusion length in n-6H SiC ranged from 0.93 +/- 0.15 microns
We have developed a model of calculation of the induced current due to an electron beam. The expres...
The effects of low-temperature annealing in 8.2 MeV electron-irradiated 4H-SiC Schottky diodes were...
We present a novel method for determining semiconductor parameters such as diffusion length L, lifet...
We report values of minority carrier diffusion length in n-type 6H SiC measured using a planar Elect...
Electrically active defects in epitaxial, n-type, 4H-SiC have been investigated by electron-beam-ind...
The diffusion lengths of materials within semiconductor devices have a very strong impact on device ...
The conventional method of extracting the minority carrier diffusion length using the electron beam-...
4H-SiC has physical properties supremely suited for a variety of high power, high frequency and high...
The performance of bipolar and photodiode devices is determined by the transport properties of the m...
Minority carrier diffusion lengths determine the performance of bipolar and photodiode devices. An e...
Minority carrier diffusion lengths were measured as a function of temperature and position along the...
Master´s thesis is focused on diagnostics of semiconductor materials by EBIC method (measuring of cu...
This paper deals with a mathematical model of a SEM-EBIC experiment devised to measure the diffusion...
A scanning electron microscope (SEM) was used to measure the electron (minority carrier) diffusion l...
The existing EBIC techniques for diffusion-length (DL) determination are reviewed and a new techniqu...
We have developed a model of calculation of the induced current due to an electron beam. The expres...
The effects of low-temperature annealing in 8.2 MeV electron-irradiated 4H-SiC Schottky diodes were...
We present a novel method for determining semiconductor parameters such as diffusion length L, lifet...
We report values of minority carrier diffusion length in n-type 6H SiC measured using a planar Elect...
Electrically active defects in epitaxial, n-type, 4H-SiC have been investigated by electron-beam-ind...
The diffusion lengths of materials within semiconductor devices have a very strong impact on device ...
The conventional method of extracting the minority carrier diffusion length using the electron beam-...
4H-SiC has physical properties supremely suited for a variety of high power, high frequency and high...
The performance of bipolar and photodiode devices is determined by the transport properties of the m...
Minority carrier diffusion lengths determine the performance of bipolar and photodiode devices. An e...
Minority carrier diffusion lengths were measured as a function of temperature and position along the...
Master´s thesis is focused on diagnostics of semiconductor materials by EBIC method (measuring of cu...
This paper deals with a mathematical model of a SEM-EBIC experiment devised to measure the diffusion...
A scanning electron microscope (SEM) was used to measure the electron (minority carrier) diffusion l...
The existing EBIC techniques for diffusion-length (DL) determination are reviewed and a new techniqu...
We have developed a model of calculation of the induced current due to an electron beam. The expres...
The effects of low-temperature annealing in 8.2 MeV electron-irradiated 4H-SiC Schottky diodes were...
We present a novel method for determining semiconductor parameters such as diffusion length L, lifet...