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Numerical Analysis of the Helmholtz Green’s Function for Scalar Wave Propagation Through a Nano-hole on a Plasmonic Layer
A detailed numerical study of the Helmholtz Green’s function for the description of scalar wave propagationScalar wave propagation through a... -
Multiscale Green’s function for silicene and its application to calculation of the strain field due to a vacancy
AbstractThe multiscale Green’s function method is extended to dual-planar, two-dimensional lattices and applied to calculate the lattice distortion...
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Linearity Analysis of MoTe2-FET based Single Transistor AND Gate Using Non-Equilibrium Green’s Function
Continuous failure of Metal oxide semiconductor field-effect transistors due to short channel effects has motivated researchers to find novel devices...
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Lattice Green’s Function for Multiscale Modeling of Strain Field Due to a Vacancy or Other Point Defects in Graphene
A multiscale Green’s function method, based upon a solution of the Dyson equation, is described for modeling the strain field due to a vacancy or any...
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Back-Gated MoTe2 Based 1T-AND Gate Using Non-equilibrium Green’s Function: Design and Investigation
Because of an increase in short channel effects, metal oxide semiconductor field-effect transistors are failing to cope with Moore’s law. Solutions...
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Quantum Dynamics in a 1D Dot/Antidot Lattice: Landau Minibands and Graphene Wave Packet Motion in a Magnetic Field
This work is focused on the analysis of the quantum dynamicsQuantum dynamics of a model one-dimensional lattice array of quantum dotsQuantum dots on... -
Spontaneous Emission from Semiconductors After Ultrafast Pulse Excitation: Theory and Simulation
In this chapter, we review the recent progress in the theoretical description of ultrafast phenomena in the spontaneous emission of pulse-excited... -
Quasiparticle Calculations for Point Defects at Semiconductor Surfaces
We present a quantitative parameter-free method for calculating defect states and charge-transition levels of point defects in semiconductors. It... -
Viscoelastic Circular Contact Mechanics: A Boundary Element Formulation
In this paper, a Boundary Element methodology is presented to assess viscoelastic circular contacts in steady-state conditions, when the interacting... -
Machine learning nonequilibrium electron forces for spin dynamics of itinerant magnets
We present a generalized potential theory for conservative as well as nonconservative forces for the Landau-Lifshitz magnetization dynamics....
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Near Zone Electromagnetic Wave Transmission Through a Nano-Hole in a Plasmonic Layer
We examine the role of the angle of incidenceAngle of incidence in the transmission of an electromagnetic wave through a subwavelength... -
Comparison of Silicon and Silicon-Tungsten Disulphide Heterojunction Based Tub-type Back Gated MOSFET Using Non-Equilibrium Green’s Function
At nanoscale along with the failure of Metal oxide semiconductor field-effect transistor due to short channel effects, Silicon has raised as another...
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Dielectric tunability of magnetic properties in orthorhombic ferromagnetic monolayer CrSBr
Monolayer CrSBr is a recently discovered semiconducting spin-3/2 ferromagnet with a Curie temperature of around 146 K. In contrast to many other...
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Landau Quantized Dynamics and Energy Spectra of Asymmetric Double-Quantum-Dot Systems: (a) Nonrelativistic Electrons; (b) Dirac T-3 “Diced” Lattice Carriers
This chapter is concerned with charge carrier propagation and the associated energy spectrumEnergy spectrum in asymmetric quantum double-dot systems... -
Non-Equilibrium Green’s Function Method for Electronic Transport in Nanostructured Thermoelectric Materials
Nanostructuring is one of the most promising directions in reaching improved thermoelectric performance as it leads to significant reductions in... -
Stress-Strain State of a Composite Plate Under the Action of a Transient Movable Load
The transient stress-strain state and normal displacements in a thin elastic unrestricted composite plate of constant thickness under an unsteady...
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Robust combined modeling of crystalline and amorphous silicon grain boundary conductance by machine learning
Knowledge in thermal and electric transport through grain boundary (GB) is crucial for designing nanostructured thermoelectric materials, where the...
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Surface-dominated conductance scaling in Weyl semimetal NbAs
Protected surface states arising from non-trivial bandstructure topology in semimetals can potentially enable advanced device functionalities in...
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Resolving Controls for the Boundary Approximate Controllability of Sandwich Beams with Uncertainties the Green’s Function Approach
The boundary approximate null-controllability of an Euler–Bernoulli sandwich beam subjected to a dynamically active distributed load is considered....
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High-performance junction-free field-effect transistor based on blue phosphorene
Two-dimensional semiconductors have great potential in high-performance electronic devices. However, the common way of contacting them with metals to...