Analysis of threshold voltage instability in AlGaN/GaN MISHEMTs by forward gate voltage stress pulses

Winzer, Annett; Schuster, M.; Hentschel, Rico; Ocker, J.; Merkel, U.; Jahn, Α.; Wachowiak, Andre; Mikolajick, Thomas

doi:10.1002/pssa.201532756

Cited by 10 publications

(2 citation statements)

References 24 publications

(29 reference statements)

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“…Additionally, the missing conduction band offset reduces spill-over and charge trapping within the GaN capping layer. This reduces the threshold voltage shift and saturation current reduction after gate stress observed for MISHEMTs with Al 2 O 3 as gate dielectric [36].…”

Section: Au-free Ohmic Contactsmentioning

confidence: 99%

(Invited, Digital Presentation) High-κ Gate Oxide Integration and Ohmic Contact Development for AlGaN/GaN MISHEMTs

Seidel¹,

Garbe²,

Schmid³

et al. 2022

ECS Trans.

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In this work we review our latest results concerning the integration of different high-κ dielectrics e.g. Al2O3, GdScO3 and TiO2 for gate passivation and the related development of ohmic contacts in metal insulator semiconductor high electron mobility transistor. Depending on deposition and crystallization temperature of the dielectric, a high-κ first and high-κ last process was used. For both concepts, the development of suitable ohmic contacts with low formation temperature were carried out. Vanadium based contacts for high-κ first and Au-free contacts for the high-κ last approach was shown. The influence of the ohmic contact formation temperature on the performance of the MISHEMT devices were studied for all high-κ gate passivation layer.

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Section: Au-free Ohmic Contactsmentioning

confidence: 99%

(Invited, Digital Presentation) High-κ Gate Oxide Integration and Ohmic Contact Development for AlGaN/GaN MISHEMTs

Seidel¹,

Garbe²,

Schmid³

et al. 2022

ECS Trans.

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“…[9][10][11][12][13] In particular, serious V th shift induced by forward gate bias stress due to electron trapping at the dielectric/ III-N interface is one of the major concern in terms of device reliability. [14][15][16][17] Therefore, the minimization of trap states at the interface is a critical issue for GaN-based MIS-HEMTs. Although a reduction of the interface trap density (D it ) has been reported after various surface treatments and postdeposition annealing, [6,[18][19][20][21][22][23][24] still few reports have dealt with the effects of surface and postdeposition treatments in terms of D it and their related implications on V th stability during forward gate bias stress conditions.…”

Section: Introductionmentioning

confidence: 99%

Surface Preconditioning and Postmetallization Anneal Improving Interface Properties and V_th Stability under Positive Gate Bias Stress in AlGaN/GaN MIS‐HEMTs

Calzolaro

Szabó

Großer

et al. 2020

Physica Status Solidi (a)

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Trap states at the dielectric/GaN interface of AlGaN/GaN-based metalinsulator-semiconductor high electron mobility transistors (MIS-HEMTs) can cause threshold voltage (V th) instability especially under positive gate bias stress. Herein, the influence of O 2 plasma surface preconditioning (SPC) before the atomic layer deposition of the Al 2 O 3 gate dielectric and of N 2 postmetallization anneal (PMA) after gate metallization on the Al 2 O 3 /GaN interface quality is investigated. The interface is characterized by multifrequency capacitancevoltage measurements which show a smaller frequency dispersion after the employment of SPC and PMA treatments with a reduction of the interface trap density D it to a value in the order of 2 Â 10 12 cm À2 eV À1 near the conduction band edge. The effectiveness of SPC and PMA is demonstrated in Al 2 O 3 /AlGaN/ GaN MIS-HEMTs by pulsed current-voltage measurements which reveal improved V th stability.

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Physical Modeling of Threshold Voltage Instability in GaN High‐Electron‐Mobility Transistors

Mao

2024

Physica Status Solidi (a)

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The transient heat conduction equation for the 2D electron gas layer in GaN high‐electron‐mobility transistors is developed. The Schottky barrier height and the conduction band offset seen by electrons in the 2D electron gas layer will be reduced due to self‐heating in the 2D electron gas of GaN high‐electron‐mobility transistors via quantum coupling. Such a reduction will lead to a shift in the threshold voltage. To address this issue, an analytical physical model of self‐heating in the 2D electron gas of a GaN high‐electron‐mobility transistor via quantum coupling impacts on its threshold voltage instability is proposed. The proposed model forecasts that the threshold voltage can have an exponentially dependent relation with the reciprocal of the recovery time after the stress voltage is released, as well as dependencies on the square of the drift velocity, the gate voltage, and the surrounding temperature. The experimentally observed threshold voltage shifts of GaN high‐electron‐mobility transistors confirm such dependent relationships predicted by the proposed physical model. This article provides evidence that the combination of self‐heating in the 2D electron gas layer and quantum coupling may be a possible physical origin of the threshold voltage instability in GaN high‐electron‐mobility transistors.

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Analysis of threshold voltage instability in AlGaN/GaN MISHEMTs by forward gate voltage stress pulses

Cited by 10 publications

References 24 publications

(Invited, Digital Presentation) High-κ Gate Oxide Integration and Ohmic Contact Development for AlGaN/GaN MISHEMTs

(Invited, Digital Presentation) High-κ Gate Oxide Integration and Ohmic Contact Development for AlGaN/GaN MISHEMTs

Surface Preconditioning and Postmetallization Anneal Improving Interface Properties and V_th Stability under Positive Gate Bias Stress in AlGaN/GaN MIS‐HEMTs

Physical Modeling of Threshold Voltage Instability in GaN High‐Electron‐Mobility Transistors

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Analysis of threshold voltage instability in AlGaN/GaN MISHEMTs by forward gate voltage stress pulses

Cited by 10 publications

References 24 publications

(Invited, Digital Presentation) High-κ Gate Oxide Integration and Ohmic Contact Development for AlGaN/GaN MISHEMTs

(Invited, Digital Presentation) High-κ Gate Oxide Integration and Ohmic Contact Development for AlGaN/GaN MISHEMTs

Surface Preconditioning and Postmetallization Anneal Improving Interface Properties and Vth Stability under Positive Gate Bias Stress in AlGaN/GaN MIS‐HEMTs

Physical Modeling of Threshold Voltage Instability in GaN High‐Electron‐Mobility Transistors

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Surface Preconditioning and Postmetallization Anneal Improving Interface Properties and V_th Stability under Positive Gate Bias Stress in AlGaN/GaN MIS‐HEMTs