Simulation and Comparative Study of Resonant Tunneling Diode

Abstract: This paper studies and investigates the effect of physical and electrical parameters on double, triple and six barrier resonant tunneling diodes (RTD). The materials used for quantum well and barriers are Gallium arsenide (GaAs) and Aluminium gallium arsenide (AlGaAs), respectively. The parameters that were reasoned and studied include conduction band, current density, transmission coefficient and resonance energy. The above parameters were studied by changing bias voltage, temperature, barrier width and dopin… Show more

“…Other physical phenomena modeled with DWP include particle tunneling under Bose-Einstein condensate conditions which produces an interesting collective effect [4,5], quantum tunneling effect when a particle can pass through a classically bounded region [6,7], and quantum computing when a multiple well potential is used to build a quantum logic gate [8]. As an example of practical application, DWP can be used to study resonant tunnel diodes [9] and control temperature-related electronic lowland states in semiconductors [10].…”

Estimation of Energy Separation in Tunelling States in Symmetric-Hyperbolicus Double-Well Potential Problem using Filter Method

“…Other physical phenomena modeled with DWP include particle tunneling under Bose-Einstein condensate conditions which produces an interesting collective effect [4,5], quantum tunneling effect when a particle can pass through a classically bounded region [6,7], and quantum computing when a multiple well potential is used to build a quantum logic gate [8]. As an example of practical application, DWP can be used to study resonant tunnel diodes [9] and control temperature-related electronic lowland states in semiconductors [10].…”

Estimation of Energy Separation in Tunelling States in Symmetric-Hyperbolicus Double-Well Potential Problem using Filter Method