Doctor at The University of Yaounde 1 (UY1), Cameroon.
Dr. Senghor TAGOUEGNI, a Cameroonian physicist, holds a Ph.D. in Physics from the University of Yaoundé I, with a specialization in Mechanics, Materials, and Complex Systems. As a dedicated educator at GBHS Akono, he contributes to academic excellence while pursuing advanced research in nonlinear dynamics, quantum processing, and parity-time symmetry systems. His scholarly contributions span electrical transmission lines, oscillators, and condensed matter physics. Fluent in both French and English, Dr. TAGOUEGNI is also a proficient programmer and scientific software user. His recent work on PT/APT-symmetric electronic systems demonstrates originality, rigor, and relevance to emerging technologies. These qualities, along with his consistent academic growth and leadership, make him a strong candidate for the Best Researcher Award.
🌍 Professional Profile:
ORCID
Scopus
🏆 Suitability for the Best Researcher Award :
Dr. Senghor TAGOUEGNI is a dedicated physicist whose research combines advanced theoretical physics with practical applications in nonlinear dynamics, parity-time symmetry systems, and quantum processing. His Ph.D. work, awarded with the distinction “Very Honourable,” focused on PT/APT-symmetric electronic systems and their implications in wave transport phenomena—an area of growing global interest. In addition to his teaching role at GBHS Akono, he actively engages in research, science education, and academic leadership. Fluent in French and English and highly proficient in scientific computing tools like Matlab, Maple, and LTSpice, Dr. TAGOUEGNI demonstrates consistent innovation and commitment to scientific advancement. His interdisciplinary expertise and impactful contributions make him a highly suitable candidate for the Best Researcher Award
🎓 Education :
Dr. Senghor TAGOUEGNI earned his Ph.D. in Physics in December 2022 from the University of Yaoundé I, specializing in Fundamental Mechanics and Complex Systems. His thesis explored PT/APT-symmetric electronic systems in wave transport phenomena, addressing critical topics like Anderson Localization and Electromagnetically Induced Transparency. He previously obtained a Master of Science degree in Fundamental Mechanics and Complex Systems in January 2015, also from the University of Yaoundé I. His academic journey began with a Bachelor of Science in Physics in 2010, followed by a professional teaching diploma (DIPES I) from the Higher Teacher Training School (ENS), Yaoundé. His solid academic background lays a strong foundation for advanced interdisciplinary research and effective science education.
🏢 Work Experience :
Dr. Senghor TAGOUEGNI currently serves as a Physics, Chemistry, and Technology teacher at GBHS Akono in the Mefou and Akono Division. He has several years of experience teaching science subjects at the secondary and high school levels, effectively combining pedagogy with research. His educational background from ENS and advanced degrees in physics have enabled him to design and implement complex scientific concepts in classrooms with clarity. He also plays a leadership role as General Secretary of AMIPLYBAK, contributing to staff welfare and educational coordination. Beyond his academic roles, he is an active science communicator and mentor, fostering a research-driven culture among students and peers while maintaining active involvement in national scientific networks.
🏅 Awards and Honors :
Dr. Senghor TAGOUEGNI received the grade “Very Honourable” for his Ph.D. in Physics from the University of Yaoundé I in December 2022, reflecting his academic excellence and research depth. His work has garnered recognition for addressing advanced and emerging physics topics such as parity-time symmetry and quantum transport phenomena. As General Secretary of AMIPLYBAK, he has been acknowledged for his leadership and organizational service within the education sector. His commitment to scientific rigor and community engagement has earned him respect among peers and educators. Though formal awards beyond academia may be limited, his scholarly achievements and continued contributions to scientific education position him as a rising figure in physics research in Cameroon.
🔬 Research Focus :
Dr. Senghor TAGOUEGNI’s research interests span electrical transmission lines, oscillators, nonlinear dynamics, and parity-time (PT) symmetry in optical, mechanical, and electronic systems. He explores advanced physics topics such as quantum processing, condensed matter, and atomic systems, particularly in relation to wave transport phenomena. His doctoral thesis addressed Anderson localization and electromagnetically induced transparency in PT/APT-symmetric systems—an area of growing significance in quantum physics and photonics. His work blends theoretical modeling with computational tools like Matlab, Maple, and LTSpice, advancing understanding of complex systems. This interdisciplinary focus not only contributes to fundamental science but also supports technological innovation in areas like energy transmission, quantum electronics, and material science.
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📘 Localization behavior in a thresholdless PT symmetric electrical transmission line
Year: 2024
Journal: Physica B: Condensed Matter
DOI: 10.1016/j.physb.2024.416630
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📗 PT-symmetric electronic dimer without gain material
Year: 2023
Journal: Communications in Theoretical Physics
DOI: 10.1088/1572-9494/acf28
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📙 Non-Hermitian electronics multipods of Electromagnetically Induced Transparency (EIT) and Absorption (EIA)
Year: 2022
Journal: Optical and Quantum Electronics
DOI: 10.1007/s11082-022-03629-4
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📕 Energy transport and Anderson-like localization in non-Hermitian electrical transmission line
Year: 2020
Journal: Physica Scripta
DOI: 10.1088/1402-4896/abacfc
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📒 Thresholdless characterization in space and time reflection symmetry electronic dimers
Year: 2017
Journal: Journal of the Optical Society of America B
DOI: 10.1364/JOSAB.34.000658
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📄 Experimental observation of real spectra in Parity-Time symmetric ZRC dimers with positive and negative frequencies
Year: 2020
Platform: arXiv Preprint
arXiv ID: arXiv:2007.01999