Luca Latessa’s scientific contributions

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Publications (2)

Fig. 2. (a) Drain-current (ID) and (b) transconductance (gm) vs gatesource-voltage (VGS) curves measured after each step of the drain stepstress experiment carried out on the DUTs under OFF-state conditions.
Mechanisms of Step-Stress Degradation In Carbon-Doped 0.15 μm Algan/Gan Hemts for Power RF Applications
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December 2023

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7 Citations

IEEE Transactions on Device and Materials Reliability

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We discuss the degradation mechanisms of C-doped 0.15-μm gate AlGaN/GaN HEMTs tested by drain step-stress experiments. Experimental results show that these devices exhibit cumulative degradation effects during the step stress experiments in terms of either (i) transconductance (gm) decrease without any threshold-voltage (VT) change under OFF-state stress, or (ii) both VT and gm decrease under ON-state stress conditions. To aid the interpretation of the experiments, two-dimensional hydrodynamic device simulations were carried out. Based on obtained results, we attribute the gm decrease accumulating under OFF-state stress to hole emission from CN acceptor traps in the gate-drain access region of the buffer, resulting in an increase in the drain access resistance. On the other hand, under ON-state stress, channel hot electrons are suggested to be injected into the buffer under the gate and in the gate-drain region where they can be captured by CN traps, leading to VT and gm degradation, respectively.

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Citations (2)

... the degradation caused by hot carriers [6,7]. Considering this context, it is obvious that analyzing device degradation is crucial to ensure the reliability of short-channel GaN HEMTs. ...

Reference:

Analysis on Hot Carrier Injection of 0.15 μm Short-Channel AlGaN/GaN HEMTs Using Electroluminescence Spectroscopy
Mechanisms of Step-Stress Degradation In Carbon-Doped 0.15 μm Algan/Gan Hemts for Power RF Applications

IEEE Transactions on Device and Materials Reliability

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... In the last two decades, many reports have shown the capability of gallium nitride (GaN) based high electron mobility transistors (HEMTs) to be used for high-frequency power applications. [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20] In addition, it has been shown that replacing the AlGaN barrier layer with a sub-10 nm AlN barrier can be a potential candidate for millimeter-wave applications due to the availability of higher carrier concentration in the two-dimensional electron gas (2-DEG) while employing ultra-thin barriers. 1 Hence, AlN/GaN HEMTs with short gate lengths demonstrated state-of-the-art high-frequency power performance. ...

Reference:

Physical insight of thin AlGaN back barrier for millimeter-wave high voltage AlN/GaN on SiC HEMTs
Role of carbon in dynamic effects and reliability of 0.15-um AlGaN/GaN HEMTs for RF power amplifiers

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Luca Latessa