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Novel attributes and design considerations of effective oxide thickness in nano DG MOSFETs |
| Morteza Charmi |
| Department of Nano Physics, Malekashtar University of Technology, Shahinshahr, Isfahan, Iran |
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Abstract Impacts of effective oxide thickness on a symmetric double-gate MOSFET with 9-nm gate length are studied, using full quantum simulation. The simulations are based on a self-consistent solution of the two-dimensional (2D) Poisson equation and the Schrödinger equation within the non-equilibrium Green's function formalism. Oxide thickness and gate dielectric are investigated in terms of drain current, on-off current ratio, off current, sub-threshold swing, drain induced barrier lowering, transconductance, drain conductance, and voltage. Simulation results illustrate that we can improve the device performance by proper selection of the effective oxide thickness.
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Received: 11 September 2014
Revised: 04 November 2014
Accepted manuscript online:
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PACS:
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73.23.Ad
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(Ballistic transport)
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73.23.-b
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(Electronic transport in mesoscopic systems)
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85.30.De
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(Semiconductor-device characterization, design, and modeling)
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85.35.-p
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(Nanoelectronic devices)
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Corresponding Authors:
Morteza Charmi
E-mail: charmi@guilan.ac.ir
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Cite this article:
Morteza Charmi Novel attributes and design considerations of effective oxide thickness in nano DG MOSFETs 2015 Chin. Phys. B 24 047302
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