Home – Home – Jornals – Avtometriya 2024 number 6

When designing devices in the terahertz range based on resonant tunneling structures with an operating point in the region of negative differential conductivity, serious problems arise in predicting the current-voltage characteristics of such structures. In this study, the problem of predicting the current-voltage characteristics of resonant tunneling diodes in the area of negative differential conductivity for signal conversion devices is solved. A method for calculating the hysteresis on the current-voltage characteristics of resonant tunneling diodes is proposed. The developed model differs from the previously used approaches by using the stationary version of the wave function formalism to describe the hysteresis, while the nonstationary equations of the Wigner function formalism or quantum hydrodynamics were previously used. It is shown that the hysteresis is a consequence of the interelectronic interaction in the quantum channel of the resonant tunneling structure, which can be taken into account using the self-consistent field method. Three types of initial conditions for the system of the Schrödinger-Poisson equations are considered, and it is shown that the appearance of the hysteresis in the current-voltage characteristics of resonant tunneling diodes is achieved by applying special initial conditions in the self-consistency procedure. It is found that the hysteresis manifests itself in the stationary case of a constant voltage, which can be predicted by varying the initial conditions during the self-consistency procedure.