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Volt-ampere characteristic of the double Schottky barrier

The volt-ampere characteristic (I-V characteristic) of the double Schottky barrier located in the contact region of ZnO grains of zinc oxide based varistor ceramics is calculated using the mechanism of the above-barrier electron emission. I-V characteristic is symmetric to the polarity of the voltage U. At U > 2kBT/e (kB is the Boltzmann constant, T is the absolute temperature, e is electron charge) the electric current is saturated. The contact of ZnO grains with a double Schottky barrier behaves like an electrical circuit consisting of two oppositely connected Schottky diodes. A small maximum possible decrease in the height of the double Schottky barrier in an electric field ~ 0.7kBT ≈ 0.018 eV does not allow explaining the high nonlinearity of I – V characteristic of varistor materials by the above-barrier electron emission. The most probable cause of nonlinearity is the tunnel emission of electrons and impact ionization.

Oles Honchar Dnipropetrovsk National University

A. I. Ivon

Journal of Physics and Electronics

2021

Title: Volt-ampere characteristic of the double Schottky barrier

Description:

I-V characteristic is symmetric to the polarity of the voltage U.

At U > 2kBT/e (kB is the Boltzmann constant, T is the absolute temperature, e is electron charge) the electric current is saturated.

The contact of ZnO grains with a double Schottky barrier behaves like an electrical circuit consisting of two oppositely connected Schottky diodes.

A small maximum possible decrease in the height of the double Schottky barrier in an electric field ~ 0.

7kBT ≈ 0.

018 eV does not allow explaining the high nonlinearity of I – V characteristic of varistor materials by the above-barrier electron emission.

The most probable cause of nonlinearity is the tunnel emission of electrons and impact ionization.

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Volt-ampere characteristic of the double Schottky barrier

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