The Influence of Transistor Miniaturization on Quantum Tunneling in Semiconductor Devices
Aarav Mittal
Quantum Tunneling, Quantum Computing, Semiconductor Technology, Monte Carlo, Electrical Engineering
This paper addresses the important question: how does quantum tunneling affect transistor miniaturization in semiconductor devices, and what are the broader implications for future technologies? The paper discusses challenges posed by transistor miniaturization and introduces quantum tunneling using theoretical principles of quantum mechanics, such as the Schrödinger equation and Heisenberg uncertainty principle. The paper compares the evaluation of graphene, transition metal dichalcogenides, and topological insulators and their impact on quantum tunneling. The paper further explores advanced simulation methods such as density functional theory, quantum Monte Carlo, etc. to model tunneling effects in small transistors. The paper also explores the role of quantum tunneling in quantum computing, especially in the development of qubits, exploring the integration of nanotechnology and machine learning in optimizing tunneling effects. Our discussion integrates these findings, exploring implications for current and future semiconductor technology, and concludes with predictions of the development of transistor technology and quantum tunneling.
Article Details
Unique Paper ID: 162175

Publication Volume & Issue: Volume 10, Issue 8

Page(s): 525 - 537
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