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Numerično modeliranje enoelektronskih elementov
ID Pavlovski, Alek (Author), ID Lipovšek, Benjamin (Mentor) More about this mentor... This link opens in a new window

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Abstract
S trendom miniaturizacije logičnih vezij, se je pojavila potreba po logičnih vezij, ki temeljijo na enoelektronskih elementih. V tej diplomi bomo predstavili uvod v osnovno fiziko enoelektronike in analizirali različne numerične pristope modeliranja enoelektronskih elementov. V diplomski nalogi so razloženi pojavi ki temeljijo na ortodoksni teoriji. Osredotočili smo se na različne metode modeliranja in simulacijo enoelektronskih naprav, ki predstavljajo pomembno tehnologijo za prihodnost nanoelektronike zaradi svoje visoke občutljivosti, nizke porabe energije, hitrosti delovanja in majhnin dimenzij. Glavni cilj naloge je analizirati in primerjati različne metode modeliranja enoelektronskih elementov, vključno z metodo Monte-Carlo, metodo transportnih enačb ter SPICE makro-modelom. Opisana je tudi zgodovina razvoja enoelektronskih elementov. Rezultati simulacije so pokazali, da sta metodi Monte-Carlo in Transportne enačbe zelo natančne, čeprav počasnejše, medtem ko je SPICE metoda hitrejša, vendar ne zajema Coulombove blokade med sosednjimi tranzistorji in ima nižjo natančnostjo.

Language:Slovenian
Keywords:Coulombova blokada, tunelski spoj, enoelektronski tranzistor, simulacija, Monte-Carlo, Transportne enačbe, SPICE
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:FE - Faculty of Electrical Engineering
Year:2024
PID:20.500.12556/RUL-161462 This link opens in a new window
COBISS.SI-ID:207320067 This link opens in a new window
Publication date in RUL:11.09.2024
Views:146
Downloads:1902
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Secondary language

Language:English
Title:Numerical modeling of single electron devices
Abstract:
With the trend of miniaturizing logical circuits, there has arisen a need for logical circuits based on single-electron elements. In this thesis, we introduce the basic physics of single-electronics and analyze various numerical approaches for modeling single-electron devices. The thesis explains different phenomena based on Orthodox theory. We focus on various modeling methods and simulations of single-electron devices, which represent a significant technology for the future of nanoelectronics due to their high sensitivity, low energy consumption, speed of operation, and small size. The main goal of the thesis was to analyze and compare different methods for modeling single-electron devices, including the Monte Carlo method, Master’s equations and the SPICE macro-model. The history of the development of single-electron devices is also described. Simulation results showed that the Monte Carlo method and Master’s equations are highly accurate, but slower, while the SPICE method is faster but does not capture Coulomb blockade between adjacent transistors and has lower accuracy.

Keywords:Coulomb blockade, tunnel junction, single-electron transistor, simulation, Monte-Carlo, Master's equations, SPICE

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