论文信息 - Current transport in Schottky‐barrier diodes

Current transport in Schottky‐barrier diodes

Current transport in Schottky diodes is examined by solving the Boltzmann equation within the semiconductor. The effect of the metal is taken into account by imposing suitable boundary conditions to the above solution, and it is shown that the usual drift‐diffusion equation is not correct in the vicinity of the junction. Generalized transport equations are derived, and the current‐voltage characteristic is determined. A thermionic‐emission velocity twice as large as that derived in the T‐D theory is obtained, in accordance with a previous Monte Carlo simulation of the M‐S device.

Giorgio Baccarani

[1] N. Mott. The Theory of Crystal Rectifiers , 1939 .

[2] Inclusion of carrier temperature effects in a thermionic-diffusion theory of the schottky barrier , 1974 .

[3] C. R. Crowell,et al. Recombination velocity effects on current diffusion and imref in schottky barriers , 1971 .

[4] Zur Theorie der Gleichrichtung am Kontakt Metall-Halbleiter , 1954 .

[5] R. Stratton,et al. Diffusion of Hot and Cold Electrons in Semiconductor Barriers , 1962 .

[6] C. R. Crowell,et al. Current transport in metal-semiconductor barriers , 1966 .

[7] A. M. Mazzone,et al. Monte Carlo simulation of current transport in forward-biased Schottky-barrier diodes , 1976 .