TY - JOUR
T1 - Analytic modeling for drain-induced barrier lowering phenomenon of the InGaP/InGaAs/GaAs pseudomorphic doped-channel field-effect transistor
AU - Lee, Ching Sung
AU - Hsu, Wei Chou
AU - Wu, Chang Luen
PY - 2002/10
Y1 - 2002/10
N2 - A two-dimensional analytic model for characterizing the drain-induced barrier lowering (DIBL) phenomenon for the InGaP/InGaAs/GaAs pseudomorphic doped-channel field-effect transistor (PDCFET) is proposed. By solving nonlinear equations with the Newton method, this model provides a straightforward physical expression of the channel potential profile near or within the sub-threshold regime for short-channel effects. Calculations for a specified PDCFET device structure with a gate length of 0.25 μm have been conducted and results demonstrated that the pinch-off channel, at a gate-to-source bias of 1.2V, will resume current conduction as the potential barrier is lowered comparably to the thermal voltage when the drain bias elevates to 2.2V. This work presents a comprehensive investigation, and fast and convenient estimation for the short-channel effect, and can be extended to multichannel PDCFET structures.
AB - A two-dimensional analytic model for characterizing the drain-induced barrier lowering (DIBL) phenomenon for the InGaP/InGaAs/GaAs pseudomorphic doped-channel field-effect transistor (PDCFET) is proposed. By solving nonlinear equations with the Newton method, this model provides a straightforward physical expression of the channel potential profile near or within the sub-threshold regime for short-channel effects. Calculations for a specified PDCFET device structure with a gate length of 0.25 μm have been conducted and results demonstrated that the pinch-off channel, at a gate-to-source bias of 1.2V, will resume current conduction as the potential barrier is lowered comparably to the thermal voltage when the drain bias elevates to 2.2V. This work presents a comprehensive investigation, and fast and convenient estimation for the short-channel effect, and can be extended to multichannel PDCFET structures.
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U2 - 10.1143/jjap.41.5919
DO - 10.1143/jjap.41.5919
M3 - Article
AN - SCOPUS:0036818468
SN - 0021-4922
VL - 41
SP - 5919
EP - 5923
JO - Japanese Journal of Applied Physics
JF - Japanese Journal of Applied Physics
IS - 10
ER -