Researcher at Centre de développement des technologies avancées, Algeria
Dr. Karima Annou 🇩🇿 is an Algerian researcher 🧑🔬 specializing in theoretical physics, particularly in plasma science ⚡. She earned her Ph.D. 🎓 from USTHB in 2013, focusing on multidimensional coherent structures in dusty plasmas. Currently, she works at the Centre de Développement des Technologies Avancées (CDTA) in Algiers 🏢. A dedicated peer reviewer and an international scientific member 🌍, Dr. Annou has made notable contributions to nonlinear dynamics and plasma applications. Fluent in Arabic, French, and English 🗣️, she blends strong computing skills 💻 with a passion for advancing plasma research and its applications.
Professional Profile:
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Education and Experience 🎓🛠️
Education:
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🎓 Habilitation, UMBB, Algeria (2016)
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🎓 Ph.D. in Physics, USTHB, Algeria (2013) – Theoretical physics (Dusty plasmas)
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🎓 Magister en Physique (MSc equivalent), USTHB (2007)
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🎓 DES de Physique (Radiation Physics), USTHB (2003)
Experience:
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🧪 2012–Present: Researcher, Plasma & Application Team, CDTA, Algeria
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🧑🏫 2008–2010: Physics/Chemistry Teacher, AGORA High School, Algiers
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🧑🏫 2007–2008: Lecturer, University of Boumerdes (UMBB)
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🧑🏫 2006–2007: Physics/Chemistry Teacher, FENNEC School, Algiers
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🧑🏫 2005–2006: Physics Teacher, Med Ben Rahal High School, Algiers
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📢 2000–2006: Head of Communication, Club of Young Physicists
Professional Development 🧑💻📈🗣️
Dr. Karima Annou 📚 constantly enhances her academic and professional skills. She is fluent in Arabic, French, and English 🗣️, enabling her to collaborate on international levels 🌍. Her technical proficiencies include using symbolic and numerical software like Maple, Matlab, and Geant4 💻, alongside a strong command of MS Office tools. With teaching experience across different educational levels 🧑🏫, she also refined her scientific communication skills while leading youth physics initiatives 📢. Dr. Annou remains active in global research networks, peer-reviewing for top journals and participating in associations like AIP and CMSIM 🔬.
Research Focus Category 🔬🌌⚡
Dr. Karima Annou’s research 🔬 revolves around Nonlinear Dynamics, Solitary Waves, and instability phenomena in plasma physics ⚡. She focuses on nonlinear partial differential equations (PDEs), dusty plasma models 🌌, laser-plasma interactions, and materials science applications 🧪. Her theoretical work extends to kinetic theories, anomalous diffusion, and astrophysical turbulence 🌠. Dr. Annou’s studies contribute to understanding complex plasma behaviors under extreme conditions, aiming at practical applications such as energy, materials engineering, and space plasma exploration 🚀. Her interdisciplinary approach bridges fluid dynamics and advanced material sciences 🔗.
Awards and Honors 🏆🎖️
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🏅 International Member, CMSIM (Chaotic Modeling and Simulation)
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🎖️ Peer Reviewer for prestigious journals:
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Physics of Plasmas (AIP Publishing) 📄
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AIP Advances 📚
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Journal of Physics A: Mathematical and Theoretical (IOPscience) 📘
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Journal of Applied Physics (AIP Publishing) 🧪
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American Journal of Modern Physics (Science Publishing) 🧬
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Transactions on Plasma Science (IEEE) 🖥️
Publication Top Notes
1. Dromion in space and laboratory dusty plasma
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Authors: K. Annou, R. Annou
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Journal: Physics of Plasmas, Volume 19, Article 043705 (2012)
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Citations: 22
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Summary:
This paper studies dromions, which are localized two-dimensional (2D) structures, in dusty plasmas—both in space environments and laboratory settings. The authors derive conditions under which dromions can form using a two-dimensional generalization of plasma wave equations. They explore how dust grain parameters and plasma characteristics affect the generation and stability of these structures, offering insights for space plasmas (like in cometary tails) and controlled experiments.
2. Cairns-Gurevich equation for soliton in plasma expansion into vacuum
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Authors: K. Annou, D. Bara, D. Bennaceur-Doumaz
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Journal: Journal of Plasma Physics, Volume 81, Issue 3, Article 905810318 (2015)
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Citations: 20
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Summary:
This paper derives a modified nonlinear evolution equation—specifically the Cairns-Gurevich equation—to describe the formation and propagation of solitons during plasma expansion into a vacuum. The model accounts for the nonlinearity and dispersion specific to expanding plasmas, which is important for laser-plasma interactions, astrophysical jets, and spacecraft wake studies. The study provides analytical soliton solutions and discusses physical conditions necessary for their existence.
3. Spherical Kadomtsev–Petviashvili equation for dust acoustic waves with dust size distribution and two-charges-ions
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Authors: K. Annou, S. Bahamida, R. Annou
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Journal: Pramana – Journal of Physics, Volume 76, Issue 3, Pages 513–518 (2011)
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Citations: 16
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Summary:
In this article, the authors extend the classical Kadomtsev–Petviashvili (KP) equation into spherical geometry to describe dust acoustic waves (DAWs) in dusty plasmas. They include realistic effects like dust size distribution and two types of ion species with different charges. The spherical KP equation derived here helps explain nonlinear wave structures observed in astrophysical dusty environments, such as planetary rings and cometary comas.
4. Ion-acoustic solitons in plasma: an application to Saturn’s magnetosphere
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Author: K. Annou
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Journal: Astrophysics and Space Science, Volume 357, Article 1-9 (2015)
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Citations: 14
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Summary:
This study applies ion-acoustic soliton theory to the conditions of Saturn’s magnetosphere. The author models the formation of ion-acoustic solitary waves under the influence of varying plasma parameters found around Saturn, including temperature ratios and density profiles. The results are relevant for interpreting data from missions like Cassini, offering insights into how nonlinear structures affect plasma transport and particle dynamics around giant planets.
5. Effect of nonthermal ion distribution and dust temperature on nonlinear dust-acoustic solitary waves
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Authors: K. Annou, R. Annou
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Journal: Pramana – Journal of Physics, Volume 78, Issue 1, Pages 121–126 (2012)
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Citations: 11
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Summary:
This paper analyzes how a nonthermal ion distribution (departing from Maxwellian) and finite dust temperature influence the properties of dust-acoustic solitary waves. The study shows that these factors significantly modify the amplitude and width of solitary waves, affecting their stability and propagation. These findings are important for understanding nonlinear wave behavior in both laboratory dusty plasmas and cosmic settings like interstellar clouds.
Conclusion
➡️ Dr. Karima Annou is highly suitable for a Best Researcher Award. She meets all the major criteria: advanced degrees, sustained research output, international peer recognition, interdisciplinary research, and active service to the scientific community. Her work in plasma physics and nonlinear dynamics is scientifically impactful, and she represents an excellent example of dedication to research and scientific excellence, especially from an emerging research region (Algeria).