Dr ARMAND SYLLVIN ETEME: Leading Researcher in Biological
University of YAOUNDE I, Cameroon
🌱🍲 Dr. Eteme Armand Sylvain, born on January 2, 1984, in Menguek I, Cameroon, is a Cameroonian physicist specializing in Biological Physics and Medical Physics. He obtained his Doctorate in Physics with a focus on Biophysics from the University of Yaoundé I in 2019, following a Master’s degree in the same field in 2013 and a Bachelor’s degree in Physics in 2005. Currently affiliated with the Department of Physics at the Faculty of Sciences, University of Yaoundé I, Dr. Eteme is actively engaged in research across diverse scientific domains. His expertise includes Biological Physics, Medical Physics, Neuroscience, Networks Nonlinear Dynamics, Cooperative Behaviors, Computational Sciences, and Numerical simulation of complex structures.📘
Publication Profile:🌟👨🎓
📚 Education:
- 2019: Ph.D. in Physics (Biophysics Option), University of Yaoundé I.
- 2013: Master’s in Physics (Biophysics Option), University of Yaoundé I.
- 2005: Bachelor’s in Physics, University of Yaoundé I.
- 2001: Bachelor’s in Mathematics and Physical Sciences, Okola High School.
🏫 Professional Journey:
2006-2008: Student-Teacher at the Higher Teacher Training School of Yaoundé I. Since 2008: Stand-in Teacher of Experiment and Applied Sciences at “Collège de la Retraite,” Yaoundé. Since 2009: Professor of General Secondary Education. Since 2020: Part-Time Teacher at the National Advanced School of Engineering and the Department of Physics, University of Yaoundé I.
🌱 Research Focus:
- Synchronized nonlinear patterns in electrically coupled Hindmarsh–Rose neural networks with long-range diffusive interactions
- Consistency between modulational instability and energy localization in time-delay-memristive neural network
- Multisolitons-like patterns in a one-dimensional MARCKS protein cyclic model
- Chaos break and synchrony enrichment within Hindmarsh–Rose-type memristive neural models
- Long-range memory effects in a magnetized Hindmarsh-Rose neural network
- Unstable cAMP wave patterns during aggregation of Dictyostelium discoideum cells
- Firing and synchronization modes in neural network under magnetic stimulation
- Neuronal firing and DNA dynamics in a neural network