Soheil Nouri Source Confirmed
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
University of Arkansas at Fayetteville
faculty
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Biography and Research Information
OverviewAI-generated summary
Soheil Nouri's research centers on the physics-based modeling and characterization of semiconductor devices, particularly focusing on millimeter-wave transistors. His work investigates the impact of various physical phenomena on transistor performance, including electromagnetic wave propagation effects and pad layout variations. Nouri has published on the comprehensive physics-based modeling of millimeter-wave transistors, analyzing how wave propagation influences figures of merit and large-signal analysis. He has also explored the effects of electrode layouts on transistor performance and the modeling of wide GaN-HEMTs. Nouri's scholarship metrics include an h-index of 6, with 17 total publications and 99 citations. He has a history of collaboration with researchers at the University of Arkansas at Fayetteville, including Samir El‐Ghazaly and Amirreza Ghadimi Avval, with whom he shares multiple publications.
Metrics
- h-index: 6
- Publications: 17
- Citations: 99
Selected Publications
- Physics Based Modeling of Multi-Finger GaN-HEMTs: Device Width Optimization (2025) DOI
- A Review on the Modeling of Millimeter-Wave Transistors (2025) DOI
- Physics-Based Modeling and Characterization of Wide GaN-HEMTs (2025) DOI
- Investigating Thermal Effects and Mitigation Strategies in Multi-Finger GaN HEMTs (2024) DOI
- Finger Width Effects on Performance of GaN HEMTs (2024) DOI
- Effects of Electrodes Layout on Performance of Millimeter-Wave Transistors (2023) DOI
- A Review of Physics-based Modeling of Millimeter-Wave Transistors (2022) DOI
- Enhancing High-Frequency Performance of Millimeter-Wave Transistors by Optimizing Device Width (2022) DOI
- Global Modeling of Millimeter-Wave Transistors: Analysis of Electromagnetic-Wave Propagation Effects (2022) DOI
- Impact of Wave Propagations on Figures of Merit in Millimeter-Wave Transistors (2021) DOI
- High Step-up DC/DC Converter with Low Input Current Ripple and Low Voltage Stress on Semiconductors (2021) DOI
- Effects of Pad Layout Variations on the Cut-off Frequency of Millimeter-Wave Transistors (2021) DOI
- Effects of Electromagnetic Wave Propagations in Large-Signal Analysis of Millimeter-Wave Transistors (2021) DOI
- A Non-isolated High Step-Up DC-DC Converter Recommended for Photovoltaic Systems (2021) DOI
- Comprehensive Physics-Based Model for Millimeterwave Transistors (2021) DOI
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