Journal ArticleDOI
Self-Consistent SchrÖdinger–Poisson Simulations on Capacitance–Voltage Characteristics of Silicon Nanowire Gate-All-Around MOS Devices With Experimental Comparisons
Sai-Kong Chin,V. Ligatchev,S.C. Rustagi,Hui Zhao,Ganesh S. Samudra,Navab Singh,G. Q. Lo,Dim-Lee Kwong +7 more
TLDR
In this article, a self-consistent Schrodinger-Poisson solver was used to simulate room temperature capacitance-voltage characteristics of silicon (Si) nanowire gate-all-around MOS structures with radius les 10 nm.Abstract:
We simulate room temperature capacitance-voltage characteristics of silicon (Si) nanowire gate-all-around MOS structures with radius les 10 nm using a self-consistent Schrodinger- Poisson solver in cylindrical coordinates with full treatment of the transverse quantum confinement. In this paper, we compare our simulation results with the latest capacitance measurements on single Si nanowire pMOS and nMOS devices in the subfemtofarad range. We also propose to probe the density-of-states features of the Si channel from the capacitance-voltage characteristics at room temperature measurements using dC/dV dependence and illustrate the idea by employing the latest measurements, our quantum and Medici (Synopsys) simulations, as well as a simplified analytical model.read more
Citations
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Journal ArticleDOI
Effects of the electrostatic environment on the Majorana nanowire devices
TL;DR: In this paper, the role of electrostatic interaction in Majorana bound states is analyzed. But the main result is that Coulomb interaction causes the chemical potential to respond to an applied magnetic field, while spin-orbit interaction and screening by the superconducting lead suppress this response.
Journal ArticleDOI
Effects of the electrostatic environment on the Majorana nanowire devices
TL;DR: In this article, the role of electrostatic interaction in Majorana bound states was analyzed and it was shown that Coulomb interaction causes the chemical potential to respond to an applied magnetic field, while spin-orbit interaction and screening by the superconducting lead suppress this response.
Journal ArticleDOI
Temperature and size dependences of electrostatics and mobility in gate-all-around MOSFET devices
TL;DR: In this article, the temperature and diameter dependences of capacitance and electron mobility in gated silicon nanowires are analyzed and discussed and the selfconsistent solution of the 2D Schrodinger and Poisson equations is used to extract the inversion charge and capacitance curves as a function of the gate bias.
Journal ArticleDOI
Intrinsic Performance of InAs Nanowire Capacitors
TL;DR: In this paper, the intrinsic properties of vertical InAs nanowire (NW) capacitors are investigated using a Schrodinger-Poisson solver, taking the conduction band nonparabolicity into account.
Journal ArticleDOI
Analytical Quantum Model for Germanium Channel Gate-All-Around (GAA) MOSFET
TL;DR: In this article, an analytical model for Gate-All-Around Metal Oxide Semiconductor Field Effect Transistor (GAA-MOSFET) for germanium channel including quantum mechanical effects is proposed.
References
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Book
Introduction to Electrodynamics
TL;DR: The fourth edition of the Electrodynamics textbook as discussed by the authors provides a rigorous, yet clear and accessible treatment of the fundamentals of electromagnetic theory and offers a sound platform for explorations of related applications (AC circuits, antennas, transmission lines, plasmas, optics and more).
Book
Quantum Transport: Atom to Transistor
TL;DR: The conceptual framework underlying the atomistic theory of matter, emphasizing those aspects that relate to current flow, is presented in this paper, with illustrative examples showing how conductors evolve from the atomic to the ohmic regime as they get larger.
Journal ArticleDOI
High Performance Silicon Nanowire Field Effect Transistors
TL;DR: In this article, the influence of source-drain contact thermal annealing and surface passivation on key transistor properties was examined, and it was shown that thermal annaling and passivation of oxide defects using chemical modification can increase the average transconductance from 45 to 800 nS and average mobility from 30 to 560 cm 2 /V