Mazharuddin Mohammed scite author profile

Mazharuddin Mohammed

3Publications

3Citation Statements Received

43Citation Statements Given

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Affiliations

IMEC, KU Leuven

Publications

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Electric-field induced quantum broadening of the characteristic energy level of traps in semiconductors and oxides

Mohammed

Verhulst

Verreck

et al. 2016

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The trap-assisted tunneling (TAT) current in tunnel field-effect transistors (TFETs) is one of the crucial factors degrading the sub-60 mV/dec sub-threshold swing. To correctly predict the TAT currents, an accurate description of the trap is required. Since electric fields in TFETs typically reach beyond 10 6 V/cm, there is a need to quantify the impact of such high field on the traps. We use a quantum mechanical implementation based on the modified transfer matrix method to obtain the trap energy level. We present the qualitative impact of electric field on different trap configurations, locations, and host materials, including both semiconductors and oxides. We determine that there is an electric-field related trap level shift and level broadening. We find that these electricfield induced quantum effects can enhance the trap emission rates. Published by AIP Publishing.

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Phonon-assisted tunneling in direct-bandgap semiconductors

Mohammed

Verhulst

Verreck

et al. 2019

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In tunnel field-effect transistors, trap-assisted tunneling (TAT) is one of the probable causes for degraded subthreshold swing. The accurate quantum-mechanical (QM) assessment of TAT currents also requires a QM treatment of phonon-assisted tunneling (PAT) currents. Therefore, we present a multi-band PAT current formalism within the framework of the quantum transmitting boundary method. An envelope function approximation is used to construct the electron-phonon coupling terms corresponding to local Fröhlich-based phonon-assisted inter-band tunneling in direct-bandgap III-V semiconductors. The PAT current density is studied in up to 100 nm long and 20 nm wide p-n diodes with the 2- and 15-band material description of our formalism. We observe an inefficient electron-phonon coupling across the tunneling junction. We further demonstrate the dependence of PAT currents on the device length, for our non-self-consistent formalism which neglects changes in the electron distribution function caused by the electron-phonon coupling. Finally, we discuss the differences in doping dependence between direct band-to-band tunneling and PAT current.

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Modeling and Validating the Optimal Routes of a Sensor Network Using the Electrostatic Field Equations

Jabbar¹,

Mohammed²

2014

(AREJ)

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