This paper presents the theory, implementation and application of a new quantum transport, NEGF based modelling approach employing a full-band Empirical Pseudopotential (EP) Hamiltonian. The use of a hybrid real-space/plane-waves basis results in a remarkable reduction of the computational burden compared to a full plane waves basis, which allowed us to obtain complete, self-consistent simulations for both FETs and Tunnel FETs in Si or in Ge, and with geometrical features in line with forthcoming CMOS technologies
NEGF based transport modelling with a full-band, pseudopotential Hamiltonian: Theory, implementation and full device simulations
Marco Pala;Oves Badami;David Esseni
2017-01-01
Abstract
This paper presents the theory, implementation and application of a new quantum transport, NEGF based modelling approach employing a full-band Empirical Pseudopotential (EP) Hamiltonian. The use of a hybrid real-space/plane-waves basis results in a remarkable reduction of the computational burden compared to a full plane waves basis, which allowed us to obtain complete, self-consistent simulations for both FETs and Tunnel FETs in Si or in Ge, and with geometrical features in line with forthcoming CMOS technologiesFile in questo prodotto:
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