Niloufar Hashemi scite author profile

A reduced surface electric field in an AlGaN/GaN high electron mobility transistor (HEMT) is investigated by employing a localized Mg-doped layer under the two-dimensional electron gas (2-DEG) channel as an electric field shaping layer. The electric field strength around the gate edge is effectively relieved and the surface electric field is distributed evenly as compared with those of HEMTs with conventional source-connected field plate and double field plate structures with the same device physical dimensions. Compared with the HEMTs with conventional sourceconnected field plates and double field plates, the HEMT with a Mg-doped layer also shows that the breakdown location shifts from the surface of the gate edge to the bulk Mg-doped layer edge. By optimizing both the length of Mg-doped layer, Lm, and the doping concentration, a 5.5 times and 3 times the reduction in the peak electric field near the drain side gate edge is observed as compared with those of the HEMTs with source-connected field plate structure and double field plate structure, respectively. In a device with V GS = −5 V, Lm = 1.5 µm, a peak Mg doping concentration of 8×10 17 cm −3 and a drift region length of 10 µm, the breakdown voltage is observed to increase from 560 V in a conventional device without field plate structure to over 900 V without any area overhead penalty.

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Breakdown voltage enhancement for power AlGaN/GaN HEMTs with Air-bridge Field Plate

Xie

Lee

et al. 2012

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Identification of potential antileishmanial agents via structure-based molecular simulations

Razzaghi‐Asl¹,

Hashemi²

2022

Journal of Molecular Graphics and Modelling

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Breakdown voltage enhancement for power AlGaN/GaN HEMTs with Air-bridge Field Plate

Xie

Lee

et al. 2011

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