论文信息 - Simulation of GaAs IMPATT diodes including energy and velocity transport equations

Simulation of GaAs IMPATT diodes including energy and velocity transport equations

Simulations have been performed of GaAs hybrid double-drift IMPATT diodes at 60 and 94 GHz using a transport model which includes equations for the average per-carrier velocity and energy. These equations are obtained from the second and third velocity moments of the Boltzmann transport equations, respectively. The relaxation-time formulation is used to characterize the collision terms. Simulations were also carried out for the same structures using the standard drift-diffusion transport model. It was found that inclusion of the energy-velocity equations significantly modifies the predicted carrier transport behavior and results in somewhat better RF performance under large-signal conditions than that predicted by the drift-diffusion simulation.

[1] Kjell Blotekjaer. HIGH-FREQUENCY CONDUCTIVITY, CARRIER WAVES, AND ACOUSTIC AMPLIFICATION IN DRIFTED SEMICONDUCTOR PLASMAS. , 1966 .

[2] Waves in semiconductors with nonconstant mobility , 1968 .

[3] J. Leck,et al. Temperature dependence of avalanche breakdown in gallium arsenide p—n junctions† , 1968 .

[4] D. Lippens,et al. Effect of energy relaxation on injected current pulse in high-frequency IMPATT diodes , 1981 .

[5] A.J. Seeds,et al. Large-signal time-domain modeling of avalanche diodes , 1979, IEEE Transactions on Electron Devices.

[6] G.I. Haddad,et al. IMPATT device simulation and properties , 1977, IEEE Transactions on Electron Devices.

[7] J. Gary. On certain finite difference schemes for hyperbolic systems , 1964 .

[8] A. R. Gourlay,et al. Finite-Difference Methods for Nonlinear Hyperbolic Systems , 1968 .

[9] J. East,et al. Monte Carlo estimation of hot carrier noise at millimeter- and submillimeter-wave frequencies , 1981, IEEE Transactions on Electron Devices.

[10] K. Blotekjaer. Transport equations for electrons in two-valley semiconductors , 1970 .