Dr. Fatemeh Moradiani | Photonics | Best Researcher Award
Dr. Fatemeh Moradiani, Queen’s University Belfast, United Kingdom
Fatemeh Moradiani is a researcher and educator specializing in integrated photonics and nonlinear optics. She earned her Ph.D. in Electrical Engineering from Shahid Rajaee Teacher Training University, Tehran, where her thesis focused on hybrid optical waveguide modulators. Fatemeh has worked as a research assistant at Shahid Beheshti University, contributing to photonics lab developments and micro-laser characterization. She has also been involved in the mass production of LEDs and ICs. Fatemeh has published numerous papers on plasmonic sensors, microring lasers, and hybrid photonic devices. She is an active member of the Iranian Optics and Photonics Society. šš”
Publication Profile
Academic Background š
Dr. Fatemeh Moradiani holds a Ph.D. in Electrical Engineering from Shahid Rajaee Teacher Training University, Tehran, Iran (2014-2021), where she focused on the “Analysis and Design of Hybrid Optical Waveguide Modulators in High-Speed Networks.” She earned her M.S. in Electrical Engineering from the same university (2009-2011), with a thesis on adaptive filter algorithms in nonstationary environments. Dr. Moradiani also completed her B.S. in Electrical Engineering from Shariati Technical and Vocational College, Tehran, Iran (2004-2008). Her strong academic performance, with a GPA of A, showcases her dedication to the field of electrical engineering. šš§
Professional Experience š¼
Dr. Fatemeh Moradiani is a Research Assistant at Shahid Beheshti University, where she works in the Integrated Photonics Lab. Her responsibilities include setting up advanced optical systems, such as a direct-write laser lithography system, micro-laser characterization system, and optical waveguide loss measurement system. She also designs and fabricates hydrophilic surfaces and single-mode micro-ring lasers. Additionally, Dr. Moradiani has experience in the mass production of LEDs and ICs, serving as the production line manager (2022-2023). Alongside her research career, she has been a physics teacher for the Ministry of Education since 2007. š¬š”š
Teaching Experience š
Dr. Fatemeh Moradiani has extensive teaching experience in Electrical Engineering. At Shahid Rajaee Teacher Training University (2015-2018), she taught courses such as Fiber Optics, Digital Logic Gate Analysis and Design, Digital Signal Processing, Physics of Electronics, and Microprocessor Lab. Additionally, she has taught at Islamic Azad University, Sanandaj Branch (2011-2013), covering subjects including Digital Logic Gate Analysis and Design, Power Switching Sources, Integrated Circuit Lab, Microprocessor Lab, Electrical Circuits Lab, and Electronic Lab. Her teaching expertise spans both theoretical and practical aspects of electrical engineering. š§āš«š»šš
Honors and Awards š
Dr. Fatemeh Moradiani has received several prestigious honors and awards throughout her career. She was recognized with the Top Paper Award at the 5th RIAPA Meeting on Low-Dimensional Systems in 2018. In 2012, she earned the title of Top Research Student at Shahid Rajaee Teacher Training University. Additionally, she received an External Research Contract in 2010 and was awarded the Top Paper at the 6th Iranian Machine Vision and Image Processing Conference in 2010. These accolades highlight her outstanding contributions to research and academic excellence. š„šš
Research Focus Areas š¬š
Dr. Fatemeh Moradianiās research primarily spans plasmonics, nanophotonics, and optical waveguide systems. Her work involves the design and analysis of plasmonic sensors and high-performance modulators for ultrasensitive biomaterial detection. She has made significant contributions in graphene-based plasmonic systems and optical modulators, particularly in high-speed networks and terahertz frequencies. Her research also delves into adaptive filter algorithms for nonstationary environments and microring lasers with high side-mode suppression. Additionally, Dr. Moradiani’s studies extend to laser systems, micro-disk sensors, and graphene-based optical components, offering insights into high-performance communication and sensor technology. š¬šā”
Publication Top Notes Ā
- Systematic engineering of a nanostructure plasmonic sensing platform for ultrasensitive biomaterial detection ā Cited by: 67, Year: 2020 š¬
- A multimode graphene plasmonic perfect absorber at terahertz frequencies ā Cited by: 43, Year: 2020 ā”
- High extinction ratio all-optical modulator using a vanadium-dioxide integrated hybrid plasmonic waveguide ā Cited by: 20, Year: 2021 š”
- The design and 3D simulation of a new high-speed half adder based on graphene resonators ā Cited by: 18, Year: 2021 š„ļø
- A unified approach to tracking performance analysis of the selective partial update adaptive filter algorithms in nonstationary environment ā Cited by: 12, Year: 2013 š
- High-performance tunable multi-channel graphene-based square ring resonator demultiplexer ā Cited by: 11, Year: 2020 š
- High side-mode suppression ratio with a Vernier effect single-mode laser using triple coupled microrings ā Cited by: 10, Year: 2023 š
- Single-mode lasing by tailoring the excitation of localized surface plasmon resonances to whispering gallery modes in a microring laser ā Cited by: 7, Year: 2023 š„
- An investigation on the effects of geometrical parameters on the sensitivity of micro-disk and micro-ring plasmonic sensors ā Cited by: 5, Year: 2023 š
- Design and Analysis of Plasmonic Switch at mid-IR Wavelengths with Graphene Nano-Ribbons ā Cited by: 5, Year: 2018 š§Ŗ