Mr. Mohamed Mansour, Karlsruhe Institute of Technology, Germany
Mohamed Abdelsalam Mansour is a passionate photonics engineer specializing in optical MEMS, integrated photonics, and microfabrication. He is currently pursuing an M.Sc. in Optics & Photonics at Karlsruhe Institute of Technology (KIT), Germany π. With a background in nanotechnology and nanoelectronics, he earned his B.Sc. from Zewail City of Science and Technology, Egypt. Mohamed has worked as a Research Assistant (RA) and Teaching Assistant (TA), contributing to photonics research and education. His expertise spans optical resonators, microchip development, and sensing applications, with international recognition through awards and publications π.
Professional Profile:
Orcid
Suitability for Best Researcher Award
Mohamed Abdelsalam Mansour is a highly promising researcher in photonics and MEMS technology, with a strong academic foundation and research experience in optical resonators, microfabrication, and integrated optics. His work on optical MEMS microresonators for high-precision sensing applications, coupled with expertise in photonic microchip development, positions him as an outstanding candidate for a Best Researcher Award.
Education & Experience ππΌ
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M.Sc. in Optics & Photonics β Karlsruhe Institute of Technology (KIT), Germany π (Ongoing)
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B.Sc. in Nanotechnology & Nanoelectronics (Photonics Concentration) β Zewail City of Science and Technology, Egypt πͺπ¬ (Graduated with GPA: 3.4/4.0 β Very Good)
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Research Assistant (RA) β Ain Shams University & Zewail City π¬
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Teaching Assistant (TA) β Zewail City π
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Expertise: Optical MEMS, photonic device modeling, optical resonators, WDM, microfabrication, nanoparticle synthesis π
Professional Development π
Mohamed actively engages in cutting-edge research in photonics and nanotechnology, contributing to advancements in optical MEMS, photonic microchips, and integrated optics π. His expertise includes ring resonators for WDM applications, microfabrication techniques, and optical spectrum analysis π¬. As a Teaching Assistant, he played a pivotal role in enhancing student learning through hands-on tutorials and lab demonstrations π. His strong technical skills in Lumerical, MATLAB, and COMSOL support his research in photonic device design and sensing applications. With multilingual proficiency and a passion for scientific discovery, Mohamed continues to drive innovation in optical sensing and communication systems π‘β¨.
Research Focus π
Mohamedβs research lies at the intersection of photonics, MEMS, and nanotechnology, with a focus on optical sensing and integrated photonic devices π. He specializes in modeling and fabrication of optical MEMS microresonators, which play a crucial role in high-precision sensing applications π¬. His work in ring resonators for wavelength division multiplexing (WDM) contributes to next-generation optical communication systems π‘. His expertise in nanoparticle synthesis, signal processing, and microfabrication enhances the efficiency of photonics-based detection systems. By integrating MEMS technology with optical devices, Mohamed aims to develop innovative solutions for biomedical and environmental sensing applications π±β‘.
Awards & Honors π
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Best Researcher Award β International Research Awards on Composite Materials, 2024 π
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Best Paper Award β 40th National Radio Science Conference, 2023 π
π Scholarship for Academic Excellence β Zewail City of Science and Technology π
π Graduation Project Excellence β βOptical MEMS Microresonator for Sensing Applicationsβ β
Publication Top Notes:
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“On-chip Optofluidic Structure for Hormonal Detection Using Stable Fabry-PΓ©rot Resonator” (1 citation, 2022) π§ͺ
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“Optical Fibers Use in On-Chip FabryβPΓ©rot Refractometry to Achieve High Q-Factor: Modeling and Experimental Assessment”
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“S-Matrix Analysis of Dense Wave-division Demultiplexer Based On Add/drop Ring Resonators Structures”