TASSELLI , Josiane

International audience

Different technologies have been developed for the realization of AlGaN/GaN HEMTs exhibiting the normally-off functionality, such the gate recess or the introduction of a P-GaN layer for lifting-up the conduction band level under the gate. Despite their respective advantages, the major drawbacks are the degradation of the carriers mobilities in...

Les travaux portent sur la réalisation technologique d'un HEMT AlGaN/GaN normally-off avec une grille à barrière P-GaN. Des résultats de simulation ont montré que la tension de seuil de cette structure peut atteindre une valeur supérieure à 2 V et qu'elle est liée à la profondeur de gravure de la couche d'AlGaN. Nous avons développé une recette...

A new normally-off AlGaN/GaN HEMT structure is proposed. The regrowth of a P-GaN layer on the AlGaN/GaN heterostructure after the gate recess allows the achievement of the enhancement mode. A shift in the threshold voltage to positive values has been proved through simulation results. A precise control of the etch depth for the gate recess is detailed.

The technology of GaN HEMT structures is the subject of major developments for large-gap power components. However, it is necessary to develop innovative technological solutions to obtain high-performance normally-off devices. We present a new normally-off structure based on a nanostructured P-GaN multi-well gate. The design of this structure,...

Un nouveau concept d'interrupteur de puissance HEMT en GaN présentant la fonctionnalité « normally-off » est expérimentalement validé. L'introduction d'une couche P-GaN suffisamment dopée (autour de 2 x 10 18 cm-3) au sein de la couche buffer GaN NID, en-dessous de l'électrode de grille et sous l'interface AlGaN / GaN, permet d'obtenir une...

This work presents an innovative technology where GaN-based vertical and lateral devices are monolithically integrated. Indeed, this technology will enable to drive high-power switching devices (vertical GaN power FinFETs) using lateral GaN HEMTs with minimum losses and high stability. The main challenge of this technology is the electrical...

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International audience

N-doped homo-epitaxial GaN samples grown on freestanding GaN substrates have been investigated by micro-Raman spectroscopy. Quantitative analysis of the Eh2 and the A1(LO) modes' behavior has been performed while intentionally increasing the carrier density using silicon doping. We noticed that as the carrier concentration increases up to 1.8 ×...

This paper introduces a novel technology for the monolithic integration of GaN-based vertical and lateral devices. This approach is groundbreaking as it facilitates the drive of high-power GaN vertical switching devices through lateral GaN HEMTs with minimal losses and enhanced stability. A significant challenge in this technology is ensuring...

In this work, measurements from cathodo-luminescence (CL), micro-Raman spectroscopy and currentvoltage I(V) have been coupled to assess the effects of physical parameters such as threading dislocations and effective doping level homogeneity on the electrical performances of vertical GaN Schottky diodes.

This paper reports comprehensive characterization of vertical GaN-on-GaN Schottky barrier diodes (SBDs) fabricated on free-standing GaN substrates. The GaN active layer properties are evaluated by atomic force microscopy (AFM), secondary-ion mass spectrometry (SIMS), micro-Raman spectroscopy, cathodoluminescence (CL), and deep-level transient...