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510 results on '"Borga, M"'

1. Impact of Doping and Geometry on Breakdown Voltage of Semi-Vertical GaN-on-Si MOS Capacitors

Author

Favero, D., De Santi, C., Mukherjee, K., Borga, M., Geens, K., Chatterjee, U., Bakeroot, B., Decoutere, S., Rampazzo, F., Meneghesso, G., Zanoni, E., and Meneghini, M.

Subjects
Physics - Applied Physics
Abstract

For the development of reliable vertical GaN transistors, a detailed analysis of the robustness of the gate stack is necessary, as a function of the process parameters and material properties. To this aim, we report a detailed analysis of breakdown performance of planar GaN-on-Si MOS capacitors. The analysis is carried out on capacitors processed on different GaN bulk doping (6E18 Si/cc, 6E17 Si/cc and 2.5E18 Mg/cc, p-type), different structures (planar, trench-like) and different geometries (area, perimeter and shape). We demonstrate that (i) capacitors on p-GaN have better breakdown performance; (ii) the presence of a trench structure significantly reduces breakdown capabilities; (iii) breakdown voltage is dependent on area, with a decreasing robustness for increasing dimensions; (iv) breakdown voltage is independent of shape (rectangular, circular). TCAD simulations, in agreement with the measurements, illustrate the electric field distribution near breakdown and clarify the results obtained experimentally., Comment: ["European Union (EU)" & "Horizon 2020"]["Euratom" & Euratom research & training programme 2014-2018"][Research for GaN technologies, devices, packages and applications to address the challenges of the future GaN roadmap][UltimateGaN][826392]

Published
2022
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2. Study and characterization of GaN MOS capacitors: planar versus trench topographies

Author

Mukherjee, K., De Santi, C., You, S., Geens, K., Borga, M., Decoutere, S., Bakeroot, B., Diehle, P., Altmann, F., Meneghesso, G., Zanoni, E., and Meneghini, M.

Subjects
Physics - Applied Physics
Abstract

Developing high quality GaN/dielectric interfaces is a fundamental step for manufacturing GaN vertical power transistors. In this paper, we quantitatively investigate the effect of planar etching treatment and trench formation on the performance of GaN-based MOS (metal oxide semiconductor) stacks. The results demonstrate that (i) blanket etching the GaN surface does not degrade the robustness of the deposited dielectric layer; (ii) the addition of the trench etch, while improving reproducibility, results in a decrease of breakdown performance compared to the planar structures. (iii) for the trench structures, the voltage for a 10 years lifetime is still above 20 V, indicating a good robustness. (iv) To review the trapping performance across the metal-dielectric-GaN stack, forward-reverse capacitance-voltage measurements with and without stress and photo-assistance are performed. Overall, as-grown planar capacitors devoid of prior etching steps show lowest trapping, while trench capacitors have higher interface trapping, and bulk trapping comparable to the blanket etched capacitors. (v) The nanostructure of the GaN/dielectric interface was characterized by high resolution scanning transmission electron microscopy (HR-STEM). An increased roughness of 2-3 monolayers at the GaN surface was observed after blanket etching, which was correlated to the higher density of interface traps. The results presented in this paper give fundamental insight on how the etch and trench processing affects the trapping and robustness of trench-gate GaN-MOSFETs, and provide guidance for the optimization of device performance., Comment: ["European Union (EU)" & "Horizon 2020"]["Euratom" & Euratom research & training programme 2014-2018"][ECSEL Joint Undertaking (JU)][Grant Agreement No. 826392][UltimateGaN]

Published
2022
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4. Exploration of Gate Trench Module for Vertical GaN devices

Author

Ruzzarin, M., Geens, K., Borga, M., Liang, H., You, S., Bakeroot, B., Decoutere, S., De Santi, C., Neviani, A., Meneghini, M., Meneghesso, G., and Zanoni, E.

Subjects
Physics - Applied Physics
Abstract

The aim of this work is to present the optimization of the gate trench module for use in vertical GaN devices in terms of cleaning process of the etched surface of the gate trench, thickness of gate dielectric and magnesium concentration of the p-GaN layer. The analysis was carried out by comparing the main DC parameters of devices that differ in surface cleaning process of the gate trench, gate dielectric thickness, and body layer doping. . On the basis of experimental results, we report that: (i) a good cleaning process of the etched GaN surface of the gate trench is a key factor to enhance the device performance, (ii) a gate dielectric >35-nm SiO2 results in a narrow distribution for DC characteristics, (iii) lowering the p-doping in the body layer improves the ON-resistance (RON). Gate capacitance measurements are performed to further confirm the results. Hypotheses on dielectric trapping/detrapping mechanisms under positive and negative gate bias are reported., Comment: 5 pages, 10 figures, submitted to Microelectronics Reliability (Special Issue: 31st European Symposium on Reliability of Electron Devices, Failure Physics and Analysis, ESREF 2020)

Published
2021
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9. Effects of Short‐Term Climate Variations on Young Water Fraction in a Small Pre‐Alpine Catchment.

Author

Xia, C., Zuecco, G., Marchina, C., Penna, D., and Borga, M.

Subjects
GLOBAL warming, COMPOSITION of water, CLIMATE change, ATMOSPHERIC temperature, ISOTOPIC analysis, WATERSHEDS
Abstract

Continuous and extended observations of hydrometeorological parameters, alongside the analysis of the isotopic composition across diverse waters within catchments, can significantly enhance our understanding of the potential ramifications of climate change on the hydrological response. In this study, a comprehensive analysis of hydrometeorological and isotopic data was conducted over 10 hydrological years (October 2012–September 2022) within a small, forested catchment in the Italian pre‐Alps, aiming to investigate the impacts of short‐term climatic changes on the isotopic composition of waters and the young water fraction (Fyw). The results showed that the catchment experienced climate conditions with rapid warming and drying trends. Significant isotopic enrichments were observed in all sampled water sources, driven primarily by air temperature. Fyw was estimated to be 0.64 ± 0.06, 0.45 ± 0.07, and 0.16 ± 0.03 for stream water, soil water, and shallow groundwater based on the whole‐period sinusoidal fittings, respectively. Comparative analyses comprising different approaches for the estimation of Fyw showed that time‐windows scenarios and detrending corrections yielded smaller Fyw than approaches based on the whole‐period fitting and discharge‐sensitivity modeling. Such differences can be attributed to an uneven temporal distribution of stream water isotopic data, the difficulties in capturing high flows in a humid catchment characterized by a fast runoff response during rainfall‐runoff events, and the presence of isotopic trends. Our findings underscore the imperative of integrating interannual isotopic trends and adopting appropriate sampling strategy and methodological approaches to ensure a robust Fyw estimation. Key Points: The isotopic composition of water sources underwent a significant enrichment, likely due to the increasing air temperatureYoung water fractions (Fyw) varied between 0.16 and 0.64, and the estimates were sensitive to the sampling period and the fitting methodImpacts of isotopic trends and sampling strategies should be considered in the selection and development of Fyw estimation methods [ABSTRACT FROM AUTHOR]

Published
2024
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10. Monolithic 650-V Dual-Gate p-GaN Bidirectional Switch

Author

Baratella, G., Chatterjee, U., Syshchyk, O., Borga, M., Fabris, E., Cosnier, T., Bakeroot, B., and Decoutere, S.

Abstract

This article is about the study and characterization of a monolithically integrated dual-gate bidirectional switch (BDS) realized in a CMOS-compatible gallium nitride (GaN) pilot line. The switch is based on a p-GaN gate enhancement-mode (E-mode) high-electron-mobility transistor (HEMT) rated for 650 V and provides a symmetrical electrical operation in positive and negative bias conditions while achieving comparable performance to the traditional HEMT and, with respect to the implementation of conventional BDSs, the overall on-resistance is sensibly lower. Several layout variations are discussed both through the electrical measurements and technology CAD (TCAD) simulations, together with comparisons with the reference HEMT, providing valuable insights into the design optimization of dual-gate BDSs.

Published
2024
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11. Identification of maladaptive behavioural patterns in response to extreme weather events

Author

Eusse-Villa, L., Bonardi Pellizzari, C., Franceschinis, C., Thiene, M., Borga, M., Scolobig, A., Eusse-Villa, L., Bonardi Pellizzari, C., Franceschinis, C., Thiene, M., Borga, M., and Scolobig, A.

Abstract

Human behaviour has gained recognition as a critical factor in addressing climate change and its impacts. With extreme weather events posing risks to vulnerable communities, understanding cognitive processes driving behaviours becomes essential for effective risk communication. This study focuses on the 2018 "Vaia" storm, which brought unprecedented precipitation and wind velocity to the mountainous regions of North-eastern Italy. Drawing upon the Protection Motivation Theory (PMT) framework, we employ probabilistic models to identify distinct groups with similar behavioural profiles. By administering a web-based survey to 1500 residents affected by the event, we find that threat appraisal is more influential in shaping protective behaviours than coping appraisal. Our findings indicate that by enhancing coping appraisals and discouraging non-protective measures, we can actively mitigate maladaptive responses and promote the adoption of effective adaptation strategies.

Published
2024
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24. Comparing hydrological responses across catchments using a new soil water content metric

Author

0000-0002-0924-1172, 0000-0001-6915-0697, 0000-0003-3435-2779, 0000-0001-9663-2042, 0000-0002-1413-7863, 0000-0002-6301-1634, 0000-0003-3253-6734, 0000-0003-4591-5303, 0000-0002-8496-635X, 0000-0003-2860-4941, 0000-0001-5494-5753, 0000-0002-2125-0717, Segura, C., Penna, D., Borga, M., Hissler, C., Iffly, J. F., Klaus, J., Latron, Jérôme, Llorens, Pilar, Marchina, C., Martínez-Carreras, N., Pfister, L., Zuecco, G., 0000-0002-0924-1172, 0000-0001-6915-0697, 0000-0003-3435-2779, 0000-0001-9663-2042, 0000-0002-1413-7863, 0000-0002-6301-1634, 0000-0003-3253-6734, 0000-0003-4591-5303, 0000-0002-8496-635X, 0000-0003-2860-4941, 0000-0001-5494-5753, 0000-0002-2125-0717, Segura, C., Penna, D., Borga, M., Hissler, C., Iffly, J. F., Klaus, J., Latron, Jérôme, Llorens, Pilar, Marchina, C., Martínez-Carreras, N., Pfister, L., and Zuecco, G.

Abstract

Soil water content (SWC) is a fundamental variable involved in several hydrological processes governing catchment functioning. Comparative analysis of hydrological processes in different catchments based on SWC data is therefore beneficial to infer driving factors of catchment response. Here, we explored the use of high-temporal resolution SWC data in three forested catchments (2.4–60 ha) in different European climates to characterize hydrological responses during wet and dry conditions. The investigated systems include Ressi, Italy, with a humid temperate climate, Weierbach, Luxembourg, with a semi-oceanic climate, and Can Vila, Spain, with a Mediterranean climate. We introduced a new SWC metric defined as the difference between seasonal mean SWC at a relatively shallow and a deep soil layer. The difference is classified in three distinct states: similar SWC between the two layers, higher SWC in the deeper layer, and higher SWC in the shallow layer. In the most humid site, Ressi, we frequently found similar SWC at the two soil depths which was associated with high runoff ratios. Despite similar precipitation amounts in Can Vila and Weierbach, SWC patterns were very different in both catchments. In Weierbach, SWC was similar across the entire soil profile during wet conditions, whereas evaporation of shallow water resulted in higher SWC in the deep soil layer during dry conditions. This led to high runoff ratios during wet conditions and low runoff ratios during dry conditions. In Can Vila, SWC was consistently higher in the deeper layer compared to the shallow layer, irrespective of the season, suggesting an important role of hydraulic redistribution and vertical water movement in this site. Our approach provides an easy and useful method to assess differences in hydrological behaviour solely based on SWC data. As similar datasets are increasingly collected and available, this opens the possibility for further analyses and comparisons in sites around the globe with

Published
2023

28. Route Toward Commercially Manufacturable Vertical GaN Devices

Author

Geens, Karen, Borga, M., Khan, M. A., Filho, W. Goncalez, Vohra, A., Banerjee, S., Lee, K. J., Chatterjee, U., Cingu, D., Bakeroot, B., and Decoutere, S.

Abstract

To make vertical GaN-based trench gate MOSFET devices commercially manufacturable, 200 mm engineered substrates with a poly-AlN core are a good substrate choice. The poly-AlN core, matched in thermal expansion to GaN, allows to grow high-quality thick GaN layers. Up to $11 ~\mu \text{m}$ -thick GaN stacks were grown crack-free, with excellent control over the wafer warp. Breakdown values of 900 V were reached for the vertical p/n-junction. Full device processing was completed in a CMOS-compatible pilot line without any wafer breakage, demonstrating the mechanical strength of these substrates. On module level, a new gate trench profile combining a smooth sidewall and round corners, is presented. While a smooth sidewall is important for the ON-state performance of the devices, the rounded corners are beneficial for the OFF-state operation. A semi-vertical test vehicle was used to demonstrate the ON-state of the fabricated power transistors. For devices with an effective gate width ( ${W}_{\text {G,eff}}$ ) of 180 mm and an active area of 1.4 mm2, an ON-state resistance could be achieved of 8 $\text{m}\Omega \cdot \text {cm}^{{2}}$ . By scaling the source contact length down, the device footprint could be decreased further. It is shown that for devices with a ${W}_{\text {G,eff}}$ of 60 mm this value could be further improved with best performing devices showing a 6.2 $\text{m}\Omega \cdot \text {cm}^{{2}}$ ON-state resistance.

Published
2024
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32. A high-resolution multi-model ensemble approach for estimating projected changes on sub-daily precipitation extremes

Author

Dallan, E., Marra, F., Fosser, G., Marani, M., and Borga, M.

Abstract

Reliable estimate of future changes in precipitation extremes at sub-daily temporal scales is of fundamental importance for improving risk assessment and management and increasing our resilience to climate change. This is particularly true in mountainous regions as they are vulnerable to natural hazards triggered by short-duration extreme precipitation such as flash floods, landslides and debris flows. High-resolution convection-permitting models (CPMs) can represent the convective processes, key to short-duration extremes, better than coarser resolution regional models, even in complex-orography areas. Here, we derive future projections of extreme return levels of short-duration precipitation in a mountainous region using an ensemble of CPM simulations.We focus on the northeastern Italian Alps, where previous studies already reported significant changes in observed precipitation extremes over the last decades. Using a six-model CPM ensemble CORDEX-FPS (spatial resolution ∼3 km, 8.5 RCP scenario), we estimate the future changes, and related uncertainty, in return levels of 1 to 24 h precipitation up to 1% yearly exceedance probability (100yr return time), for near (2041-2050) and far (2090-2099) future. We estimate return levels from the available 10yr-time-period simulations using a state-of-the-art non-asymptotic statistical approach which was already applied successfully to the short time periods of CPM simulations. Future changes appear to vary spatially also depending on the rainfall duration and the time period (near versus far future). We provide a physical interpretation of these patterns and evaluate the model uncertainty in relation with the natural variability of the ensemble. These results provide reliable and useful information for risk management stakeholders., The 28th IUGG General Assembly (IUGG2023) (Berlin 2023)

Published
2023
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35. HYMEX : A 10-Year Multidisciplinary Program on the Mediterranean Water Cycle

Author

Drobinski, P., Ducrocq, V., Alpert, P., Anagnostou, E., Béranger, K., Borga, M., Braud, I., Chanzy, A., Davolio, S., Delrieu, G., Estournel, C., Boubrahmi, N. Filali, Font, J., Grubišić, V., Gualdi, S., Homar, V., Ivančan-Picek, B., Kottmeier, C., Kotroni, V., Lagouvardos, K., Lionello, P., Llasat, M. C., Ludwig, W., Lutoff, C., Mariotti, A., Richard, E., Romero, R., Rotunno, R., Roussot, O., Ruin, I., Somot, S., Taupier-Letage, I., Tintore, J., Uijlenhoet, R., and Wernli, H.

Published
2014

38. Role of the GaN-on-Si Epi-Stack on ΔRON Caused by Back-Gating Stress

Author

Millesimo, M., Borga, M., Valentini, L., Bakeroot, B., Posthuma, N., Vohra, A., Decoutere, S., Fiegna, C., and Tallarico, A. N.

Abstract

This article reports an in-depth analysis of the ON-resistance drift ( $\Delta {R}_{ \mathrm{\scriptscriptstyle ON}}{)}$ induced by storage/release mechanisms occurring in the buffer of GaN-on-Si power devices. The role of both stress condition (bias, temperature, and stress time) and buffer’s epi-stack composition on $\Delta {R}_{ \mathrm{\scriptscriptstyle ON}}$ has been analyzed by means of back-gating current deep-level transient spectroscopy (I-DLTS). The results reveal two competing mechanisms: 1) a faster one related to acceptor defects and sensitive to the thickness of the carbon-doped GaN back-barrier (C:GaN) and superlattice (SL) layers and 2) a slower one ascribed to hole accumulation at the C:GaN/SL interface, independent of the thickness of the epi-stack. The temperature, stress bias, and stress time dependence of such mechanisms, often overlapping, have been investigated by adopting a genetic algorithm.

Published
2023
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39. Compact Modeling of Nonideal Trapping/Detrapping Processes in GaN Power Devices

Author

Modolo, N., primary, De Santi, C., additional, Baratella, G., additional, Bettini, A., additional, Borga, M., additional, Posthuma, N., additional, Bakeroot, B., additional, You, S., additional, Decoutere, S., additional, Bevilacqua, A., additional, Neviani, A., additional, Meneghesso, G., additional, Zanoni, E., additional, and Meneghini, M., additional

Published
2022
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