The operating voltage of advanced microwave devices is currently limited by impact-ionization and breakdown effects. An extended study of the effects of hot carriers on the breakdown behavior and reliability of GaAs-based and InP-based HEMTs (high electron mobility transistors) has been carried out by means of pulsed measurements, electroluminescence spectroscopy and microscopy and Monte Carlo simulations. We show that the parasitic bipolar effect, which explains kink effects in HEMTs, can also induce regenerative phenomena eventually leading to on-state breakdown. Results concerning the effects of hot carrier aging on GaAs-based and InP-based HEMTs are summarized
We present the first data on rapid degradation of electrical characteristics induced by hot electron...
The authors for the first time present results of hot electron stressing of InAlAs/InGaAs/InP high e...
GaAs Pseudomorphic High-Electron Mobility Transistors (PHEMTs) are widely used in RF power applicati...
The renovated interest in the study of hot carrier phenomena in III-V FET devices originates from tw...
The renovated interest in the study of hot carrier phenomena in III-V FET devices originates from tw...
This work for the first time describes the results of hot electron stress experiments performed on I...
This paper reviews most recent results concerning reliability of InP-based and metamorphic high elec...
A new failure mechanism of AlGaAs/InGaAs pseudomorphic high electron mobility transistors has been o...
This paper reviews results of a study concerning the effects of hot electrons on the degradation of ...
We present in this work the rapid and irreversible degradation of electrical characteristics induced...
We report on the degradation induced by hot electrons when AlGaAs/GaAs HEMTS are biased at high drai...
This paper describes experimental results which demonstrate the existence of reliability problems du...
Thanks to the improvements in material quality, gate processing and device design, the robustness of...
This paper reports on the permanent degradation of the electrical characteristics of GaAs-based HEMT...
This paper reports on hot electron (HE) degradation of 0.25-\u3bcm Al0.25Ga0.75As/In0.2Ga0.8 As/GaAs...
We present the first data on rapid degradation of electrical characteristics induced by hot electron...
The authors for the first time present results of hot electron stressing of InAlAs/InGaAs/InP high e...
GaAs Pseudomorphic High-Electron Mobility Transistors (PHEMTs) are widely used in RF power applicati...
The renovated interest in the study of hot carrier phenomena in III-V FET devices originates from tw...
The renovated interest in the study of hot carrier phenomena in III-V FET devices originates from tw...
This work for the first time describes the results of hot electron stress experiments performed on I...
This paper reviews most recent results concerning reliability of InP-based and metamorphic high elec...
A new failure mechanism of AlGaAs/InGaAs pseudomorphic high electron mobility transistors has been o...
This paper reviews results of a study concerning the effects of hot electrons on the degradation of ...
We present in this work the rapid and irreversible degradation of electrical characteristics induced...
We report on the degradation induced by hot electrons when AlGaAs/GaAs HEMTS are biased at high drai...
This paper describes experimental results which demonstrate the existence of reliability problems du...
Thanks to the improvements in material quality, gate processing and device design, the robustness of...
This paper reports on the permanent degradation of the electrical characteristics of GaAs-based HEMT...
This paper reports on hot electron (HE) degradation of 0.25-\u3bcm Al0.25Ga0.75As/In0.2Ga0.8 As/GaAs...
We present the first data on rapid degradation of electrical characteristics induced by hot electron...
The authors for the first time present results of hot electron stressing of InAlAs/InGaAs/InP high e...
GaAs Pseudomorphic High-Electron Mobility Transistors (PHEMTs) are widely used in RF power applicati...