A SPICE Model for Single Electron Transistor Applications at Low Temperatures: Inverter and Ring Oscillator

In this paper, we present a SET model based on the orthodox theory and solving the Master equation. The model was implemented in SPICE recursively using many PSPICE user and build-in functions of node voltage or current and branch instructions. This work describes a new schematic SET model and propo...

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Hauptverfasser: Boubaker, A., Troudi, M., Sghaier, Na, Souifi, A., Baboux, N., Kalboussi, A.
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Sghaier, Na
Souifi, A.
Baboux, N.
Kalboussi, A.
description In this paper, we present a SET model based on the orthodox theory and solving the Master equation. The model was implemented in SPICE recursively using many PSPICE user and build-in functions of node voltage or current and branch instructions. This work describes a new schematic SET model and proposes a compact, physically based, analytical single-electron transistor (SET) circuits. Finally, simulations of only SET, inverter and ring oscillator are discussed.
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subjects Circuit simulation
Equations
inverter
Inverters
orthodox theory
Quantum capacitance
ring oscillator
Ring oscillators
SET
Single electron transistors
SPICE
Temperature
Tunneling
Voltage
title A SPICE Model for Single Electron Transistor Applications at Low Temperatures: Inverter and Ring Oscillator
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