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Your search keyword '"Sibaja-Hernandez, Arturo"' showing total 26 results
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26 results on '"Sibaja-Hernandez, Arturo"'

1. Charge Trapping and Emission during Bias Temperature Stressing of Schottky Gate GaN-on-Silicon HEMT Structures Targeting RF/mm Wave Power Amplifiers.

Author

O'Sullivan, Barry, Rathi, Aarti, Alian, Alireza, Yadav, Sachin, Yu, Hao, Sibaja-Hernandez, Arturo, Peralagu, Uthayasankaran, Parvais, Bertrand, Chasin, Adrian, and Collaert, Nadine

Subjects
POWER amplifiers, THRESHOLD voltage, OCEAN wave power, THIN film transistors, SUBSTRATES (Materials science), MODULATION-doped field-effect transistors, GALLIUM nitride
Abstract

For operation as power amplifiers in RF applications, high electron mobility transistor (HEMT) structures are subjected to a range of bias conditions, applied at both the gate and drain terminals, as the device is biased from the OFF- to ON-state conditions. The stability of the device threshold voltage (Vt) condition is imperative from a circuit-design perspective and is the focus of this study, where stresses in both the ON and OFF states are explored. We see rapid positive threshold voltage increases under negative bias stress and subsequent recovery (i.e., Vt reduces), whereas conversely, we see a negative Vt shift under positive stress and Vt increase during the subsequent relaxation phase. These effects are correlated with the thickness of the GaN layer and ultimately result from the deep carbon-acceptor levels in the C-GaN back barrier incorporated to screen the buffer between the silicon substrate and the epitaxially grown GaN layer. Methods to mitigate this effect are explored, and the consequences are discussed. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Analysis of semi-insulating carbon-doped GaN layers using deep-level transient spectroscopy.

Author

Wang, Hongyue, Hsu, Po-Chun, Zhao, Ming, Simoen, Eddy, Gendt, Stefan De, Sibaja-Hernandez, Arturo, and Wang, Jinyan

Subjects
ANTISITE defects, ELECTRON traps, ELECTRIC potential measurement, SPECTROMETRY, CHARGE carriers, DOPING agents (Chemistry)
Abstract

Electrically active defects in carbon-doped GaN layers were studied with a metal/carbon-doped GaN (GaN:C)/Si-doped GaN (GaN:Si) MIS structure. The GaN:C layers were grown with three different carbon doping concentrations (NC). A semi-vertical metal/semi-insulator/n-type semiconductor (MIS) device was fabricated to perform deep-level transient spectroscopy (DLTS) measurements. Two electron traps E1 and E2 with energy level at EC − (0.22–0.31) eV and EC − (0.45–0.49) eV were observed. E1 and E2 are associated with a nitrogen vacancy VN-related defect in the strain field of extended defects and a nitrogen antisite defect, respectively. By changing the reverse bias voltage of the DLTS measurement, the location and relative defect concentration of the E1 and E2 traps could be verified. A dominant electron trap E3 with an unusual capture cross section was only observed in devices with an NC = 2 × 1019 cm−3 GaN:C layer. This may charge carriers from a defect band and lead to the charge redistribution in the GaN:C layer when forward biased. A hole trap H1 with energy level at EV + 0.47 eV was found for the pulse bias in the forward ON-state. H1 is suggested to correspond with the CN induced 0/+ donor level. By analyzing the schematic band diagrams across the MIS structure, the carrier transport and defect charging mechanisms underlying the DLTS transient measurements are illustrated. The identification of the trap states in the carbon-doped GaN with different NC gives further understanding on the carbon doping impact on electric characteristics of GaN power devices made on Si substrates. [ABSTRACT FROM AUTHOR]

Published
2021
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7. ESD HBM Discharge Model in RF GaN-on-Si (MIS)HEMTs

Author

Wu, Wei-Min, primary, Ker, Ming-Dou, additional, Chen, Shih-Hung, additional, Sibaja-Hernandez, Arturo, additional, Yadav, Sachin, additional, Peralagu, Uthayasankaran, additional, Yu, Hao, additional, Alian, AliReza, additional, Putcha, Vamsi, additional, Parvais, Bertrand, additional, Collaert, Nadine, additional, and Groeseneken, Guido, additional

Published
2022
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9. SiGe HBTs with normal high-speed emitter-up and reverse low-power collector-up operation

Author

Li Jen Choi, Sibaja-Hernandez, Arturo, Venegas, Rafael, Van Huylenbroeck, Stefaan, and Decoutere, Stefaan

Subjects
Bipolar integrated circuits -- Design and construction, Bipolar integrated circuits -- Comparative analysis, Bipolar transistors -- Design and construction, Bipolar transistors -- Comparative analysis, Silicon compounds -- Mechanical properties, Business, Electronics, Electronics and electrical industries
Abstract

Studies have shown that SiGe heterojunction bipolar transistors (HBTs), which are optimized for high-speed performance in the forward mode of operation, have displayed an excellent performance in the reverse mode of operation. The simultaneous availability of a high-speed performance in the forward mode and a low-power performance in the reverse mode has offered additional flexibility to optimize circuit performance in terms of speed, area and power.

Published
2008

10. (Plenary) The Revival of Compound Semiconductors and How They Will Change the World in a 5G/6G Era

Author

Collaert, Nadine, primary, Alian, AliReza, additional, Banerjee, Aritra, additional, Chauhan, Vikas, additional, ElKashlan, Rana Y., additional, Hsu, Brent, additional, Ingels, Mark, additional, Khaled, Ahmad, additional, Kodandarama, Komal Vondkar, additional, Kunert, Bernardette, additional, Mols, Yves, additional, Peralagu, Uthayasankaran, additional, Putcha, Vamsi, additional, Rodriguez, Raul, additional, Sibaja-Hernandez, Arturo, additional, Simoen, Eddy, additional, Vais, Abhitosh, additional, Walke, Amey, additional, Witters, Liesbeth, additional, Yadav, Sachin, additional, Yu, Hao, additional, Zhao, Ming, additional, Wambacq, Piet, additional, Parvais, Bertrand, additional, and Waldron, Niamh, additional

Published
2020
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12. (Invited) Advanced Transistors for High Frequency Applications

Author

Parvais, Bertrand, primary, Peralagu, Uthayasankaran, additional, Vais, Abhitosh, additional, Alian, AliReza, additional, Witters, Liesbet, additional, Mols, Yves, additional, Walke, Amey, additional, Ingels, Mark, additional, Yu, Hao, additional, Putcha, Vamsi, additional, Khaled, Ahmad, additional, Rodriguez, Raul, additional, Sibaja-Hernandez, Arturo, additional, Yadav, Sachin, additional, ElKashlan, Rana, additional, Baryshnikova, Marina, additional, Mannaert, Geert, additional, Alcotte, Reynald, additional, Kunert, Bernardette, additional, Simoen, Eddy, additional, Zhao, Ellen, additional, De Jaeger, Brice, additional, Fleetwood, Daniel, additional, Langer, Robert, additional, Zhao, Ming, additional, Wambacq, Piet, additional, Waldron, Niamh, additional, and Collaert, Nadine, additional

Published
2020
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16. A comprehensive study of boron and carbon diffusion models in SiGeC heterojunction bipolar transistors.

Author

Sibaja-Hernandez, Arturo, Decoutere, Stefaan, and Maes, Herman

Subjects
*BORON, *CARBON, *DIFFUSION, *SEPARATION (Technology), *HETEROJUNCTIONS, *SEMICONDUCTOR junctions, *HETEROSTRUCTURES, *SOLUTION (Chemistry), *SEMICONDUCTORS
Abstract

Three different diffusion models in SiGeC layers are compared and evaluated for their implementation in the process simulation program Taurus TSUPREM-4™ (TSUPREM-4 computer code from Synopsys, Inc.). The models considered in the evaluation are verified for actual process conditions of modern SiGeC heterojunction bipolar transistors in bipolar complementary metal-oxide-semiconductor technologies. Rapid thermal annealing temperatures in the range of 1020–1070 °C were used for the present study. In this study it is shown that the compared models are similar to each other despite the different physical approach. A common set of coefficients was used for the simulations of the three models under study. [ABSTRACT FROM AUTHOR]

Published
2005
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17. (Invited) Challenges on Surface Conditioning in 3D Device Architectures: Triple-Gate FinFETs, Gate-All-Around Lateral and Vertical Nanowire FETs

Author

Veloso, Anabela, primary, Paraschiv, Vasile, additional, Vecchio, Emma, additional, Devriendt, Katia, additional, Li, Waikin, additional, Simoen, Eddy, additional, Chan, B. T., additional, Tao, Zheng, additional, Rosseel, Erik, additional, Loo, Roger, additional, Milenin, Alexey P., additional, Kunert, Bernardette, additional, Teugels, Lieve, additional, Sebaai, Farid, additional, Lorant, Christophe, additional, van Dorp, Dennis, additional, Altamirano-Sánchez, Efraín, additional, Brus, Stephan, additional, Marien, Philippe, additional, Fleischmann, Claudia, additional, Melkonyan, Davit, additional, Huynh-Bao, Trong, additional, Eneman, Geert, additional, Hellings, Geert, additional, Sibaja-Hernandez, Arturo, additional, Matagne, Philippe, additional, Waldron, Niamh, additional, Mocuta, Dan, additional, and Collaert, Nadine, additional

Published
2017
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18. (Invited) Vertical Nanowire FET Integration and Device Aspects

Author

Veloso, Anabela, primary, Altamirano-Sánchez, Efraín, additional, Brus, Stephan, additional, Chan, B. T., additional, Cupak, Miroslav, additional, Dehan, Morin, additional, Delvaux, Christie, additional, Devriendt, Katia, additional, Eneman, Geert, additional, Ercken, Monique, additional, Huynh-Bao, Trong, additional, Ivanov, Tsvetan, additional, Matagne, Philippe, additional, Merckling, Clement, additional, Paraschiv, Vasile, additional, Ramesh, Siva, additional, Rosseel, Erik, additional, Rynders, Luc, additional, Sibaja-Hernandez, Arturo, additional, Suhard, Samuel, additional, Tao, Zheng, additional, Vecchio, Emma, additional, Waldron, Niamh, additional, Yakimets, Dmitry, additional, De Meyer, Kristin, additional, Mocuta, Dan, additional, Collaert, Nadine, additional, and Thean, Aaron, additional

Published
2016
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20. HRXRD analysis of SiGeC layers for BiCMOS applications

Author

Haralson, Erik, Sibaja-Hernandez, Arturo, Xu, Mingwei, Malm, Gunnar, Radamson, Henry, Östling, Mikael, Haralson, Erik, Sibaja-Hernandez, Arturo, Xu, Mingwei, Malm, Gunnar, Radamson, Henry, and Östling, Mikael

Abstract

The use of HRXRD for the monitoring of the dopant activation anneal through the detection of carbon outdiffusion has been demonstrated. The advantages of HRXRD over other measurement techniques for in-line epi-growth monitoring are also discussed. HRXRD reciprocal space mapping was used to study the SiGe layer stability as a function of carbon concentration for vertically scaled layers designed for high performance BiCMOS applications. It was found that as the carbon concentration is increased there is a reduction of boron cluster formation, but an increase in defect density is also observed., QC 20141212

Published
2004

24. (Invited) Advanced Transistors for High Frequency Applications

Author

Parvais, Bertrand, Peralagu, Uthayasankaran, Vais, Abhitosh, Alian, AliReza, Witters, Liesbet, Mols, Yves, Walke, Amey, Ingels, Mark, Yu, Hao, Putcha, Vamsi, Khaled, Ahmad, Rodriguez, Raul, Sibaja-Hernandez, Arturo, Yadav, Sachin, ElKashlan, Rana, Baryshnikova, Marina, Mannaert, Geert, Alcotte, Reynald, Kunert, Bernardette, Simoen, Eddy, Zhao, Ellen, De Jaeger, Brice, Fleetwood, Daniel, Langer, Robert, Zhao, Ming, Wambacq, Piet, Waldron, Niamh, and Collaert, Nadine

Abstract

Downscaling CMOS technology has allowed the integration of high-speed transceivers on silicon chips, but high-power amplifiers rely on III-V technologies to deliver the power and efficiency levels required by modern radios. In this work, we explore two routes to enable the fabrication of compound semiconductor devices on a large-scale manufacturable Si platform. In the first route, we report on Al(Ga,In)N HEMTs, MISHEMTs and MOSFETs integrated on 200 mm Si wafers using Au-free processing in standard Si CMOS tools. In the second route, we demonstrate GaAs/InGaP HBTs grown on a 300 mm Si substrate using Nano-Ridge Engineering (NRE) combined with aspect ratio trapping (ART). We provide insight on the potential of these new technologies for the design of advanced front-end modules, including performance trade-offs, modelling and reliability challenges.

Published
2020
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25. (Invited) Challenges on Surface Conditioning in 3D Device Architectures: Triple-Gate FinFETs, Gate-All-Around Lateral and Vertical Nanowire FETs

Author

Veloso, Anabela, Paraschiv, Vasile, Vecchio, Emma, Devriendt, Katia, Li, Waikin, Simoen, Eddy, Chan, B. T., Tao, Zheng, Rosseel, Erik, Loo, Roger, Milenin, Alexey P., Kunert, Bernardette, Teugels, Lieve, Sebaai, Farid, Lorant, Christophe, van Dorp, Dennis, Altamirano-Sánchez, Efraín, Brus, Stephan, Marien, Philippe, Fleischmann, Claudia, Melkonyan, Davit, Huynh-Bao, Trong, Eneman, Geert, Hellings, Geert, Sibaja-Hernandez, Arturo, Matagne, Philippe, Waldron, Niamh, Mocuta, Dan, and Collaert, Nadine

Abstract

This work reports on some key integration aspects for 3D devices fabrication, focusing first on the impact of thermal and plasma treatments at gate module for triple-gate finFETs and their ultimate scaling limit: gate-all-around (GAA) nanowire (NW) FETs, which can be implemented in a lateral (with one or more lateral wires vertically stacked) or vertical configuration. The selected doping schemes and gate metals can also be powerful knobs to engineer the interface properties. In addition, specific steps for lateral NWFETs, such as the wires release process, will be addressed here. Vertical NWFETs, corresponding to the move from a 2D to a 3D CMOS layout, have the potential for lower parasitics, reduced power consumption and for enabling smaller, higher performing SRAM bitcells. We will present here alternative, novel approaches for building and characterizing these devices, focusing on channel-first schemes with improved process control, while tackling critical etch-layout dependences.

Published
2017
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26. 2D-TCAD Process Calibration for a High Speed QSA SiGe:C HBT Verified with SSRM

Author

Sibaja-Hernandez, Arturo, Eyben, Pierre, Van Huylenbroeck, Stefaan, Vanhaeren, Danielle, Vandervorst, Wilfried, Decoutere, Stefaan, and Maes, Herman

Abstract

In this work, a 2D-TCAD process simulation platform for high speed bipolar HBT devices with ƒT/ƒmaxvalues exceeding 200GHz is presented. The process simulations implement a consistent model describing the diffusion behavior of boron and carbon in silicon and silicon germanium. In particular, the model successfully accounts for coupled diffusion of carbon and silicon point defects under several RTA conditions. The Kick-Out and Frank-Turnbull reactions model the carbon diffusion. Extended short-loop experiments under equilibrium and non-equilibrium conditions increased the accuracy of the simulations. It is shown that 2D-TCAD process simulations, calibrated with SIMS and TEM pictures, can be successfully complemented with the use of SSRM measurements, which provide emitter-base and collector- base junction delineation and two-dimensional carrier distributions. An excellent agreement in vertical and lateral electrical junction depths between SSRM measurements and the 2D-TCAD simulations validates the 2D process calibration.

Published
2006
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