JOURNAL ARTICLE
Towards ab-initio simulations of nanowire field-effect transistors
Abstract
An atomistic quantum transport simulator based on density functional theory is presented in this paper. It employs CP2K for the construction of the Hamiltonian and overlap matrices. The electron density and current in the conduction band is computed by solving a wave function equation using a sparse linear solver. To determine the open boundary conditions, a highly efficient extension of the parallel FEAST algorithm has been implemented. As an application, a Si NWFET consisting of more than 10,000 atoms has been simulated.
Keywords:
Nanowire Solver Hamiltonian (control theory) Wave function Ab initio Density functional theory Boundary value problem Conduction band Quantum Electron Computational chemistry Physics Statistical physics Quantum mechanics Mathematics Chemistry Mathematical optimization
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0.37
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6
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0.67
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Citation History
Topics
Advancements in Semiconductor Devices and Circuit Design
Physical Sciences → Engineering → Electrical and Electronic Engineering
Semiconductor materials and devices
Physical Sciences → Engineering → Electrical and Electronic Engineering
Nanowire Synthesis and Applications
Physical Sciences → Engineering → Biomedical Engineering
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