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Experimental and numerical investigation of Poole–Frenkel effect on dynamic <i>R</i> <sub>ON</sub> transients in C-doped p-GaN HEMTs

Nicolò Zagni, Marcello Cioni, Ferdinando Iucolano, Maurizio Moschetti, G. Verzellesi, Alessandro Chini

2021Semiconductor Science and Technology17 citationsDOIOpen Access PDF

Abstract

Abstract In this paper, we investigate the influence of Poole–Frenkel effect (PFE) on the dynamic R ON transients in C-doped p-GaN HEMTs. To this aim, we perform a characterization of the dynamic R ON transients acquired during OFF-state stress (i.e. V GS,STR = 0 V &lt; V T , V DS,STR = 25–125 V) and we interpret the results with the aid of numerical simulations. We find that dynamic R ON transients at room temperature accelerate with V DS,STR 1/2 , which is signature of PFE, as further confirmed by the simultaneous decrease of the activation energy ( E A ) extracted from the Arrhenius plot of the dynamic R ON transients at V DS,STR = 50 V and T = 30 °C–110 °C. Results obtained by means of calibrated numerical simulations reproduce the exponential dependence of transients time constants ( τ ) on V DS,STR 1/2 and consequent E A reduction only when including the PFE-enhancement model of hole emission from dominant acceptor traps in the buffer related to C doping. This result is consistent with the ‘hole-redistribution’ model that considers hole emission from acceptor traps (rather than electron capture) as the mechanism underlying dynamic R ON increase during OFF-state stress.

Topics & Concepts

DopingAcceptorActivation energyArrhenius plotArrhenius equationMaterials scienceExponential functionAnalytical Chemistry (journal)PhysicsAtomic physicsChemistryOptoelectronicsCondensed matter physicsPhysical chemistryMathematical analysisChromatographyMathematicsGaN-based semiconductor devices and materialsSemiconductor Quantum Structures and DevicesSemiconductor materials and devices
Experimental and numerical investigation of Poole–Frenkel effect on dynamic <i>R</i> <sub>ON</sub> transients in C-doped p-GaN HEMTs | Litcius