Role of AlGaN back-barrier in enhancing the robustness of ultra-thin AlN/GaN HEMT for mmWave applications

In this work, the robustness of three different AlN/GaN structures targeting high frequency applications with ultra-thin 3 nm AlN barrier and devices with different gate-to-drain spacing are evaluated. Devices were step-stress tested in off-state, semi-on-state, and on-state conditions. Different fa...

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Veröffentlicht in:	Microelectronics and reliability 2023-11, Vol.150, p.115110, Article 115110
Hauptverfasser:	Said, N., Harrouche, K., Medjdoub, F., Labat, N., Tartarin, J.G., Malbert, N.
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Sprache:	eng
Schlagworte:	Engineering Sciences Physics
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description	In this work, the robustness of three different AlN/GaN structures targeting high frequency applications with ultra-thin 3 nm AlN barrier and devices with different gate-to-drain spacing are evaluated. Devices were step-stress tested in off-state, semi-on-state, and on-state conditions. Different failure mechanisms were identified. Devices without AlGaN back-barrier show a fast increase of gate leakage current, leading to a significant degradation of electrical parameters such as the threshold voltage Vth, extrinsic transconductance GM, drain saturation current IDSsat and on-resistance Ron. This study reveals the role of the AlGaN back-barrier in the improvement of the device robustness presenting a good electrical parameters stability. The presence of an AlGaN back-barrier on low carbon- doped buffer leads to better gate leakage current stability, low trapping-related and self-heating mechanisms. The AlGaN back-barrier shows an extension of the operational Safe Operating Area for AlN/GaN technology.
doi_str_mv	10.1016/j.microrel.2023.115110
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title	Role of AlGaN back-barrier in enhancing the robustness of ultra-thin AlN/GaN HEMT for mmWave applications
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