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Quantum electron transport modeling in double-gate MOSFETs based on multiband non-equilibrium Green's function method

✍ Scribed by Helmy Fitriawan; Matsuto Ogawa; Satofumi Souma; Tanroku Miyoshi

Publisher
Elsevier Science
Year
2007
Tongue
English
Weight
330 KB
Volume
40
Category
Article
ISSN
1386-9477

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✦ Synopsis

The formulation and calculation of quantum electron transport in double-gate metal oxide semi-conductor field effect transistors (DGMOSFETs) is presented based on multiband non-equilibrium Green's function (NEGF) formalism. In the formulation we employ the empirical sp 3 s Γƒ tight-binding approximation (TBA) with nearest neighbor coupling to obtain a realistic fullband structure. The multiband NEGF is performed self-consistently with the Poisson equation to acquire the effect of space charge density. We compare the non-parabolicity feature of bandstructure with that of parabolic effective mass model. Due to the difference in energy dispersion relation, we have found that the results of multiband simulations are quite different with those based on conventional effective mass model.

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Simulation of quantum transport in doubl
Simulation of quantum transport in double-gate MOSFETs using the non-equilibrium Green's function formalism in real-space: A comparison of four methods
✍ Yasser M. Sabry; Tarek M. Abdolkader; Wael F. Farouk πŸ“‚ Article πŸ“… 2010 πŸ› John Wiley and Sons 🌐 English βš– 313 KB

Quantum effects play an important role in determining the double-gate (DG) MOSFETs characteristics. The non-equilibrium Green's function formalism (NEGF) in real-space (RS) representation provides a rigorous description of quantum transport in nanoscale devices. Unfortunately, the traditional NEGF f