Conference Agenda
| Session | |
SESSION 8: WBG DEVICES
Session Topics: WOCSDICE: WBG and UWBG material devices
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| Presentations | |
11:15am - 11:45am
ID: 192 / SESSION 8: 1 Type of Contribution: Oral Topics: WOCSDICE: WBG and UWBG material devices Keywords: III-N, Ferroelectricity Ferroelectricity in III-N based Semiconductors: New Paradigms for Material and Device Design Technische Fakultät Universität Kiel, Germany The spontaneous polarization Pspont is a key property of the wurtzite III-N semiconductors AlN, GaN and InN and a unique feature compared to alternative semiconductor classes like Si, SiC or GaAs. While previously, the direction and magnitude of Pspont in III-Ns was exclusively determined during film growth, ferroelectricity now allows to select and measure direction and net-magnitude of Pspont through the application of external bias. Intense research on adding non-volatile memory functionality, tailored excitation of higher acoustic modes and functional domain walls to III-N technology has therefore commenced and is in the process of extending to optoelectronics. At the same time, chances are that the ability to measure Pspont will reverberate strongly to established III-N technology, as it provided experimental evidence that Pspont of GaN, AlN and InN surpasses conventional wisdom by more than one order of magnitude. This development should lead to new design paradigm for e.g. the polarization based GaN high electron mobility transistor (HEMT). In addition to highlighting how ferroelectricity can thus shape a new perspective on III-N semiconductors, this contribution will discuss recent progress towards understanding and harnessing the implications of ferroelectric domains in III-Ns: electric field induced polarization discontinuities are apparently able to concentrate massive bound charge (~ 200 µC/cm²) in atomically sharp interfaces. This bound charge in turn induces conductive sheets that can e.g. directly serve for the purpose of resistive memories. On/off ratios and operating voltages attractive for inmemory computing are demonstrated. 11:45am - 12:00pm
ID: 115 / SESSION 8: 2 Type of Contribution: Oral Topics: WOCSDICE: WBG and UWBG material devices Keywords: GaN, pn diode, regrowth, vertical devices, CF4 treatment Optimization of Regrown GaN Quasi-Vertical pn Diodes by Low-Power CF4 Plasma and in-situ TMGa Treatment 1RWTH Aachen, Germany; 2AIXTRON SE Vertical GaN devices typically suffer from high reverse leakage currents and premature breakdown due to the etch damage caused by chlorine-based reactive ion etching (RIE) during fabrication. This study examines the impact of such etch damage and evaluates the effectiveness of various post-etch treatments on regrown GaN pn diodes. A single low-power CF₄ plasma treatment proves highly effective in reducing etch damage and removing contaminations from the surface before regrowth, significantly lowering reverse leakage currents. However, it also increases the diode on-resistance, likely due to fluorine passivation. To address this, an in-situ trimethylgallium (TMGa) flushing step at 400 °C following the ex-situ CF₄ plasma treatment successfully removes such fluorine species, reducing on-resistance and further enhancing electrical performance to a level comparable to that of continuously grown pn diodes. 12:00pm - 12:15pm
ID: 154 / SESSION 8: 3 Type of Contribution: Oral Topics: WOCSDICE: WBG and UWBG material devices Keywords: Schottky diode, breakdown voltage, High Temperature, GaN Study of Annealing Temperature Effects on Pt-GaN Schottky Diode Characteristics 1IEMN-CNRS, France; 2Research Institute on software and hardware devices for information and Advanced communication, France; 3LERMA-CNRS, Laboratory for Studies of Radiation and Matter in Astrophysics and Atmospheres, Paris observatory, France The thermal enhancement and the behavior of GaN Schottky diodes grown by metal organic chemical vapor deposition (MOCVD) on sapphire substrates has been investigated. Pt/Au anodes annealed at 500 °C and 600 °C show an improvement of the electrical characteristics and a breakdown voltage as high as 130 V for a drift layer thickness of 1 μm and a doping of 1016 cm-3. 12:15pm - 12:30pm
ID: 107 / SESSION 8: 4 Type of Contribution: Oral Topics: WOCSDICE: WBG and UWBG material devices, WOCSDICE: Electrical and Photonics characterization Keywords: GaN, Schottky barrier diode, HEMT, mm-wave detection RF Detection Performance of GaN Devices: Measurements and Modelling 1Universidad de Salamanca, Spain; 2Univ. Savoie Mont Blanc, France; 3Institut d'Electronique de Microélectronique et de Nanotechnologie (IEMN), France The performance of GaN Schottky barrier diodes and high electron mobility transistors as mm-wave power detectors is measured and interpreted in terms of analytical and equivalent circuit models. The dependence of the results on the device geometry, bias, frequency and temperature is analyzed. 12:30pm - 12:45pm
ID: 131 / SESSION 8: 5 Type of Contribution: Oral Topics: WOCSDICE: WBG and UWBG material devices Keywords: P-GaN HEMTs, electrical characterization, gate current Perimeter and area gate leakage current in p-GaN HEMTs 1CNR-IMM, Catania (Italy); 2Department of Chemical Sciences, University of Catania (Italy); 3STMicroelectronics, Catania (Italy); 4Department of Physics and Astronomy “Ettore Majorana”, University of Catania (Italy) In this work, we propose a model to discern between the perimeter and area contributes of the p-GaN HEMTs gate current density. The perimeter and area contributes of the gate current density were evaluated on HEMTs of different geometry. Then, temperature dependent electrical measurements allowed to extrapolate the Schottky barrier height (1.18 eV) and the p-GaN doping level (4.1×1018 cm-3) of the p-GaN layer. | |