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RESEARCH PRODUCT

Enhanced Charge Collection in SiC Power MOSFETs Demonstrated by Pulse-Laser Two-Photon Absorption SEE Experiments

Ronald D. SchrimpfArthur F. WitulskiEn Xia ZhangLanden D. RyderJean-marie LauensteinJohn A. KozubDennis R. BallArto JavanainenRobert A. JohnsonRobert A. ReedAndrew L. SternbergKenneth F. Galloway

subject

Nuclear and High Energy PhysicsMaterials sciencesingle-event effectsSchottky diodesSemiconductor laser theoryelektroniikkakomponentitchemistry.chemical_compoundsilicon carbideMOSFETSilicon carbidetwo-photon absorptionElectrical and Electronic EngineeringPower MOSFETvertical MOSFETDiodebusiness.industrySchottky diodeSemiconductor deviceNuclear Energy and EngineeringchemistrysäteilyfysiikkatransistoritOptoelectronicsCharge carrierdioditbusinesspulse height analysis

description

A two-photon absorption technique is used to understand the mechanisms of single-event effects (SEEs) in silicon carbide power metal–oxide–field-effect transistors (MOSFETs) and power junction barrier Schottky diodes. The MOSFETs and diodes have similar structures enabling the identification of effects associated specifically with the parasitic bipolar structure that is present in the MOSFETs, but not the diodes. The collected charge in the diodes varies only with laser depth, whereas it varies with depth and lateral position in the MOSFETs. Optical simulations demonstrate that the variations in collected charge observed are from the semiconductor device structure and not from metal/passivation-induced reflection. The difference in the spatial dependence of collected charge between the MOSFET and diode is explained by bipolar amplification of the charge carriers in the MOSFETs. Technology computer-aided design (TCAD) device simulations extend this analysis to heavy-ion-induced charge collection. In addition, there is discussion comparing this analysis with experimental results from prior works that show enhanced charge collection resulting from heavy-ion irradiation.

yearjournalcountryeditionlanguage
2019-07-01
http://urn.fi/URN:NBN:fi:jyu-201907173642