Sara Ghayouraneh 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
Sara Ghayouraneh's research focuses on the design, modeling, and characterization of electromagnetic devices, particularly antennas and microwave heating systems. Her work has explored the optimization of choke antennas, including rectangular choke horn antennas and double-choke antennas, utilizing techniques such as the Geometrical Theory of Diffraction. She has also investigated temperature-controlled microwave heating systems and their application in disinfection, examining factors like the impact of sodium chloride on microbial inactivation.
Ghayouraneh is a faculty member at the University of Arkansas at Fayetteville, where she leads a research group. Her scholarly contributions include a h-index of 5 and 46 citations across 11 publications. She has been involved in federally funded projects through the National Science Foundation (NSF), serving as a Co-PI on two awards totaling nearly $100,000 for travel and conference activities related to communication systems and microwave technologies, specifically the USA-AFRICA WORKSHOP ON COMMUNICATION SYSTEMS AND MICROWAVE TECHNOLOGIES.
Her collaborative network includes several researchers from the University of Arkansas at Fayetteville, including Amirreza Ghadimi Avval, Samir El‐Ghazaly, and Ibrahim N. Alquaydheb, with whom she shares multiple publications. Ghayouraneh's recent activity and publication record indicate ongoing engagement in her research areas.
Metrics
- h-index: 5
- Publications: 11
- Citations: 46
Selected Publications
- Enhancing Microwave Disinfection: Impact of Sodium Chloride on Microbial Inactivation (2024) DOI
- Modeling, Characterization, and Machine Learning Algorithm for Rectangular Choke Horn Antennas (2024) DOI
- Temperature-Controlled Disinfection System Using Microwave and Plasma (2023) DOI
- Double-Choke Antenna Radiation Optimization (2023) DOI
- Optimization of Choke Antenna Aperture Radiation Pattern (2023) DOI
- Temperature-Controlled Microwave Heating System (2023) DOI
- Choke Ring Circular Waveguide Antenna Analysis and Design Using Geometrical Theory of Diffraction (2022) DOI
Federal Grants 2 $99,990 total
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