E. Kohn scite author profile

We discuss the characteristics of In0.17Al0.83N/GaN High Electron Mobility Transistors (HEMTs) with barrier thicknesses between 33 nm and 3 nm, grown on sapphire substrates by MOCVD. The maximum drain current (at VG = +2.0 V) decreased with decreasing barrier thickness due to the gate forward drive limitation and residual surface depletion effect. Full pinch-off and low leakage is observed. Even with 3nm ultra thin barrier the heterostructure and contacts are thermally highly stable (up to 1000°C).

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Status of the Emerging InAlN/GaN Power HEMT Technology

Medjdoub¹,

Carlin²,

Gaquière³

et al. 2008

TOEEJ

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Abstract:The InAlN/GaN heterojunction appears to be a new alternative to the common AlGaN/GaN configuration with higher sheet charge density and higher thermal stability, promising very high power and temperature performance as well as robustness. This new system opens up the possibility to scale the barrier down to 5 nm while maintaining nearly its ideal materials and device properties. The status, focussing on the lattice matched materials configuration, is reviewed.

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E. Kohn

Can InAlN/GaN be an alternative to high power / high temperature AlGaN/GaN devices?

Current instabilities in GaN-based devices

Evaluation of the temperature stability of AlGaN/GaN heterostructure FETs

Barrier-Layer Scaling of InAlN/GaN HEMTs

Status of the Emerging InAlN/GaN Power HEMT Technology

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