Pages that link to "Item:Q2726639"

The following pages link to Non-parabolic band hydrodynamical model of silicon semiconductors and simulation of electron devices (Q2726639):

Displaying 36 items.

• Semiconductor device design using the \textsc{BiMADS} algorithm (Q401540) (← links)
• Simulation of a double-gate MOSFET by a non-parabolic energy-transport subband model for semiconductors based on the maximum entropy principle (Q462764) (← links)
• A hydrodynamical model for holes in silicon semiconductors: the case of non-parabolic warped bands (Q534826) (← links)
• Asymptotic stability of the equilibrium state for the hydrodynamical model of charge transport in semiconductors based on the maximum entropy principle (Q536374) (← links)
• Local-in-time well-posedness of a regularized mathematical model for silicon MESFET (Q638709) (← links)
• Electron-phonon hydrodynamical model for semiconductors (Q638727) (← links)
• 2d numerical simulations of an electron-phonon hydrodynamical model based on the maximum entropy principle (Q658896) (← links)
• Hydrodynamic simulation of a \(n^{+}-n-n^{+}\) silicon nanowire (Q738065) (← links)
• Nonlinear asymptotic stability of the equilibrium state for the MEP model of charge transport in semiconductors (Q852566) (← links)
• 2D numerical simulation of the MEP energy-transport model with a finite difference scheme (Q870557) (← links)
• 2D simulation of a silicon MESFET with a nonparabolic hydrodynamical model based on the maximum entropy principle (Q1604436) (← links)
• Exact invariant solutions for a class of energy-transport models of semiconductors in the two dimensional stationary case (Q1765147) (← links)
• Global existence for the system of the macroscopic balance equations of charge transport in semiconductors (Q1771381) (← links)
• Hydrodynamic modeling of short-channel devices using an upwind flux vector splitting scheme. (Q1871018) (← links)
• A hydrodynamic model for covalent semiconductors with applications to GaN and SiC (Q1928085) (← links)
• A non parabolic hydrodynamical subband model for semiconductors based on the maximum entropy principle (Q1931019) (← links)
• Numerical simulation of a double-gate MOSFET with a subband model for semiconductors based on the maximum entropy principle (Q1939398) (← links)
• Non-parabolic band transport in semiconductors: Closure of the production terms in the moment equations (Q1976238) (← links)
• An improved 2D-3D model for charge transport based on the maximum entropy principle (Q2201622) (← links)
• Linear asymptotic stability of the equilibrium state for the 2-D MEP hydrodynamical model of charge transport in semiconductors (Q2499636) (← links)
• Maximum entropy moment system of the semiconductor Boltzmann equation using Kane's dispersion relation (Q2501857) (← links)
• A hydrodynamical model for silicon bipolar devices (Q2819343) (← links)
• A comparison between two hydrodynamical models for hole transport in silicon (Q2884771) (← links)
• Asymptotic stability of the stationary solution for a new mathematical model of charge transport in semiconductors (Q2892174) (← links)
• High field mobility and diffusivity of an electron gas in silicon devices (Q3146401) (← links)
• (Q3154727) (← links)
• Study of the jump conditions for the 2D MEP hydrodynamical model of charge transport in semiconductors (Q3183279) (← links)
• Strong discontinuities for the 2-D MEP hydrodynamical model of charge transport in semiconductors (Q3506772) (← links)
• Quantum corrections to the semiclassical hydrodynamical model of semiconductors based on the maximum entropy principle (Q3544555) (← links)
• Hydrodynamic Modeling of an Ultra-Thin Base Silicon Bipolar Transistor (Q3618280) (← links)
• Simulation of Gunn oscillations with a non‐parabolic hydrodynamical model based on the maximum entropy principle (Q4672394) (← links)
• Short-range electron-electron scattering in silicon with a non-parabolic band structure (Q4844743) (← links)
• Non-Parabolic Band Hydrodynamic Model for Silicon Quantum Wires (Q5066114) (← links)
• Optimal Control for Semiconductor Diode Design based on the MEP Energy-Transport Model (Q5066291) (← links)
• Kinetic and Hydrodynamic Models for Multi-Band Quantum Transport in Crystals (Q5496271) (← links)
• Hydrodynamical modeling of charge carrier transport in semiconductors (Q5929815) (← links)