Prof. Rishi Kumar Tiwari | Physics | Best Researcher Award

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Prof. Rishi Kumar Tiwari | Physics | Best Researcher Award

Professor at Govt. Model Science College, Rewa (M.P.), India

Dr. Rishi Kumar Tiwari is a distinguished Professor of Mathematics with over 30 years of academic service, currently holding a post secured through the Madhya Pradesh Public Service Commission (2011). He earned his Ph.D. in Mathematics from A.P.S. University, Rewa, in 1998, following an M.Sc. with a Gold Medal. With a prolific research portfolio including 134 national and international publications and six authored books, he has supervised 21 Ph.D. scholars and continues to guide research in cosmology, general relativity, and differential geometry. Dr. Tiwari has presented his work globally, including in Italy, Germany, and South Africa, contributing to international scientific collaborations. His accolades include the DST-ICTP Fellowship (Italy), IASc-INSA-NASI Summer Research Fellowship, and the Shikshavid Samman (2023). Having served as Head of Departments and on multiple academic boards, Dr. Tiwari remains committed to advancing mathematics through education, research, and international cooperation in theoretical physics and cosmology.

Professional Profile 

Education 

Dr. Rishi Kumar Tiwari holds a strong academic background in science and mathematics. He completed his Higher Secondary education from the Board of Secondary Education, Bhopal, in 1985 with a focus on Physics, Chemistry, and Mathematics. He earned his B.Sc. from A.P.S. University, Rewa, in 1988, and later completed his M.Sc. in Mathematics from the same university in 1990, earning an outstanding, which earned him a Gold Medal. He was awarded a Ph.D. in Mathematics from A.P.S. University in 1998. His doctoral work laid the foundation for a research career focused on general relativity, cosmological modeling, and tensor analysis. Dr. Tiwari’s academic credentials reflect a consistent record of academic excellence and deep subject mastery, serving as the cornerstone for his teaching, research, and scholarly contributions to the field of mathematics and cosmology over the last three decades.

Professional Experience 

Dr. Rishi Kumar Tiwari brings with him over 30 years of extensive teaching experience at both undergraduate and postgraduate levels. He has held several significant academic leadership roles, including Head of the Department of Mathematics and Computer Science at Pt. S.N. Shukla University, Shahdol, and formerly at Govt. Model Science College, Rewa. He has also been a member of various Boards of Studies across reputed institutions like A.P.S. University and Govt. T.R.S. College, Rewa. Selected through the M.P. Public Service Commission in 2011, Dr. Tiwari has not only imparted knowledge but also shaped curricula and research agendas. Under his mentorship, 21 Ph.D. scholars have completed their doctorates, with others currently under supervision. His ability to blend deep mathematical theory with modern cosmological applications makes him a respected academic figure in India. He continues to engage students and researchers in exploring advanced topics in mathematical physics.

Research Interest

Dr. Tiwari’s research interest lies primarily in the fields of General Relativity, Cosmology, Tensor Analysis, and Differential Geometry, with a particular emphasis on exploring homogeneous cosmological models and conharmonic curvature tensors. His contributions to understanding the expanding universe and dark energy models have been presented at premier international conferences, including the TAUP Series and the Texas Symposium on Relativistic Astrophysics. With 134 research papers in reputed journals and conferences, Dr. Tiwari has carved a niche in the academic study of mathematical models underpinning astrophysical phenomena. His involvement in UGC-funded research projects on Bianchi Models and Robertson-Walker cosmologies illustrates his commitment to foundational and applied research. Collaborating with institutions in South Africa and Europe, he frequently shares findings on time-varying deceleration parameters and symmetry models. His international exposure and research depth continue to influence global discussions on theoretical physics and contribute to the development of cosmological theory.

Award and Honors

Throughout his illustrious career, Dr. Rishi Kumar Tiwari has received several awards and fellowships that affirm his academic excellence and research impact. He was awarded the DST-ICTP Fellowship (Italy, 2008), recognizing his work in mathematical physics. In 2012, he received the prestigious IASc-INSA-NASI Summer Research Fellowship, further solidifying his standing in the Indian scientific community. His most recent recognition, the Shikshavid Samman from the Department of Higher Education, Madhya Pradesh (2023), honors his decades-long contribution to higher education and mentorship in mathematics. Additionally, Dr. Tiwari has received two major UGC research grants for his projects on cosmological models. These accolades, combined with invitations for popular and technical talks at institutions like the University of KwaZulu-Natal and Mangosuthu University in South Africa, showcase his international academic reputation. His dedication to theoretical exploration and student development continues to garner respect and admiration in the fields of mathematics and cosmology.

Publications Top Notes

  • Title: Perfect fluid Bianchi Type-I cosmological models with time varying G and Λ
    Authors: JP Singh, RK Tiwari
    Year: 2008
    Citations: 63
    Source: Pramana – Journal of Physics, Vol. 70 (4), pp. 565–574

  • Title: Bianchi type-I cosmological models with time dependent G and Λ
    Authors: RK Tiwari
    Year: 2008
    Citations: 43
    Source: Astrophysics and Space Science, Vol. 318 (3), pp. 243–247

  • Title: Phase transition of LRS Bianchi type-I cosmological model in f(R,T)f(R, T) gravity
    Authors: RK Tiwari, D Sofuoğlu, VK Dubey
    Year: 2020
    Citations: 42
    Source: International Journal of Geometric Methods in Modern Physics, Vol. 17 (12), Article ID: 2050187

  • Title: Cosmological tests of parametrization q(z)q(z) in FLRW cosmology
    Authors: A Bouali, BK Shukla, H Chaudhary, RK Tiwari, M Samar, G Mustafa
    Year: 2023
    Citations: 41
    Source: International Journal of Geometric Methods in Modern Physics, Vol. 20 (09), Article ID: 2350152

  • Title: Scenario of two-fluid dark energy models in Bianchi type-III Universe
    Authors: RK Tiwari, A Beesham, BK Shukla
    Year: 2018
    Citations: 41
    Source: International Journal of Geometric Methods in Modern Physics, Vol. 15 (11), Article ID: 1850189

  • Title: Cosmological model with variable deceleration parameter in f(R,T)f(R, T) modified gravity
    Authors: RK Tiwari, A Beesham, B Shukla
    Year: 2018
    Citations: 38
    Source: International Journal of Geometric Methods in Modern Physics, Vol. 15 (07), Article ID: 1850115

  • Title: Bianchi type-III cosmological models with gravitational constant G and the cosmological constant Λ
    Authors: JP Singh, RK Tiwari, P Shukla
    Year: 2007
    Citations: 36
    Source: Chinese Physics Letters, Vol. 24 (12), pp. 3325

  • Title: Anisotropic model with decaying cosmological term
    Authors: RK Tiwari, A Beesham
    Year: 2018
    Citations: 33
    Source: Astrophysics and Space Science, Vol. 363 (11), Article: 234

  • Title: Some Robertson-Walker models with time dependent G and Λ
    Authors: RK Tiwari
    Year: 2009
    Citations: 33
    Source: Astrophysics and Space Science, Vol. 321 (2), pp. 147–150

  • Title: Time varying G and Λ cosmology in f(R,T)f(R, T) gravity theory
    Authors: RK Tiwari, A Beesham, R Singh, LK Tiwari
    Year: 2017
    Citations: 31
    Source: Astrophysics and Space Science, Vol. 362 (8), Article: 143

  • Title: Transit cosmological models with domain walls in f(R, T) gravity
    Authors: RK Tiwari, A Beesham, A Pradhan
    Year: 2017
    Citations: 30
    Source: Gravitation and Cosmology, Vol. 23 (4), pp. 392–400

  • Title: Cosmological models with viscous fluid and variable deceleration parameter
    Authors: RK Tiwari, A Beesham, BK Shukla
    Year: 2017
    Citations: 30
    Source: The European Physical Journal Plus, Vol. 132 (1), Article: 20

  • Title: An LRS Bianchi type-I cosmological model with time-dependent Λ term
    Authors: JP Singh, RK Tiwari
    Year: 2007
    Citations: 27
    Source: International Journal of Modern Physics D, Vol. 16 (04), pp. 745–754

  • Title: Cosmographic studies of q(z)q(z) parametrization in f(R,T)f(R, T) framework
    Authors: BK Shukla, A Bouali, H Chaudhary, RK Tiwari, MS Martín
    Year: 2023
    Citations: 24
    Source: International Journal of Geometric Methods in Modern Physics, Vol. 20 (14), Article ID: 2450007

  • Title: Quadratically varying deceleration parameter in f(R,T)f(R, T) gravity
    Authors: RK Tiwari, D Sofuoğlu
    Year: 2020
    Citations: 24
    Source: International Journal of Geometric Methods in Modern Physics, Vol. 17 (10), Article ID: 2030003

Conclusion 

Dr. Rishi Kumar Tiwari stands as a paragon of dedication, intellect, and international engagement in the realm of mathematical sciences. From earning a Gold Medal in his master’s studies to mentoring 21 Ph.D. scholars and producing an expansive body of scholarly work, he exemplifies the ideals of academic leadership. His prolific research, particularly in the areas of general relativity and cosmological modeling, has transcended national borders, earning him respect across continents. Participation in global scientific platforms and collaborations with African and European institutions underline his commitment to knowledge exchange and cross-cultural academic growth. With multiple leadership roles in universities and active contributions to curriculum development and academic governance, Dr. Tiwari continues to shape the future of mathematical education and research in India. His legacy is built not only on research excellence but also on his lifelong mission to inspire, educate, and innovate in the ever-evolving landscape of mathematical physics.

Prof. Dr. Robert Nesbet | Physics | Lifetime achievement Award

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Prof. Dr. Robert Nesbet | Physics | Lifetime achievement Award

Prof. Dr. at IBM Almaden Research Center, United States

Robert K. Nesbet , a distinguished theoretical physicist born in Cleveland, Ohio, is celebrated for his pioneering work across physics, chemistry, and cosmology. After earning his BA in physics from Harvard College in 1951 and a PhD from the University of Cambridge in 1954  supported as both a Henry Fellow and NSF Predoctoral Fellow he embarked on a remarkable global scientific journey. His academic tenures included posts at MIT, Boston University, and several prestigious institutions worldwide . He contributed extensively at IBM’s Almaden Research Center and published over 300 scientific papers, influencing atomic theory, computational physics, and astrophysical models . Even after his formal retirement in 1994, Nesbet continued exploring the cosmos, bridging microscopic and cosmic scales in his work. He is the author of foundational texts like Variational Principles and Methods in Theoretical Physics and Chemistry . His lifelong curiosity, scholarly rigor, and contributions remain deeply impactful across disciplines.

Professional Profile 

Education

Robert K. Nesbet’s educational path exemplifies brilliance and ambition . Born in Cleveland, he graduated from Harvard College in 1951 with a BA in Physics , reflecting an early commitment to foundational science. Soon after, he earned his PhD in 1954 from the University of Cambridge , supported as a Henry Fellow at St. John’s College and an NSF Predoctoral Fellow—a rare dual honor showcasing both academic excellence and promise. At Cambridge, he cultivated deep theoretical insight that shaped his lifelong trajectory. His transatlantic education merged American analytical precision with British theoretical traditions, laying the groundwork for interdisciplinary ventures in quantum mechanics and beyond . The convergence of elite mentorship, international exposure, and competitive fellowships not only sharpened his research skills but also infused his approach with global perspective . Nesbet’s academic formation remains a testament to how early opportunities and prestigious institutions can shape a transformative scientific voice.

Professional Experience

Nesbet’s professional odyssey traversed elite laboratories, esteemed universities, and global institutions . After a two-year research post at MIT, he became Assistant Professor of Physics at Boston University . His research later spanned continents—from the RIAS at the Martin Company in Baltimore and the Institut Pasteur in Paris  to Brookhaven National Laboratory in New York . In 1962, he joined IBM’s San Jose Research Center (later Almaden) as a Research Staff Member, where he solidified his legacy in computational physics and theoretical chemistry . Throughout his career, he held visiting professorships at top universities worldwide, inspiring students and researchers alike . His dual role as a scholar and editor—serving the Journal of Computational Physics and the Journal of Chemical Physics—reflected both his intellectual authority and collaborative ethos . Nesbet’s decades-long career fused industrial innovation with academic inquiry, shaping generations of theory, simulation, and scientific thought.

Research Interests

Nesbet’s research universe is vast, spanning from atomic orbitals to cosmic curvature . Initially focused on interacting electrons, his contributions in quantum mechanics, computational physics, and molecular theory were groundbreaking . Over 300 publications capture his deep engagement with variational principles, density functional theory, and theoretical chemistry . With mathematical precision, he modeled complex systems—from atomic interactions to crystalline solids—often bridging physics and chemistry in elegant, predictive frameworks . Post-retirement, he boldly pivoted to galactic astrophysics and cosmology, applying quantum insights to gravitational theories and universal expansion . This shift reflected his enduring quest for fundamental understanding—seeking unity between the quantum and cosmic realms. His interdisciplinary fluency allowed him to translate tools across fields, contributing uniquely to gravitational theory and cosmological modeling . Nesbet’s intellectual curiosity and flexible thinking enabled a rare breadth of exploration, making him not just a physicist but a scientific explorer across scales and domains.

Awards and Honors

Robert K. Nesbet’s accolades mirror his extraordinary scholarly influence . From early recognition as a Henry Fellow and NSF Predoctoral Fellow to leadership roles in prestigious journals, his contributions have earned sustained academic reverence . As Associate Editor of both the Journal of Computational Physics and the Journal of Chemical Physics (1969–1974), Nesbet was entrusted with shaping scholarly discourse in two pivotal domains . Though less focused on collecting formal awards, his honor resides in impact—measured by citations, collaborations, and the continued relevance of his models and methods. His long tenure at IBM’s Almaden Research Center underscores the respect of the scientific and industrial communities alike . Author of foundational texts like Variational Principles and Methods in Theoretical Physics and Chemistry, his work is recognized not only in labs and lecture halls but in textbooks and international symposia. Nesbet’s career is rich with intellectual distinction and peer recognition .

Publications Top Note 

1. Conformal Theory of Gravitation and Cosmic Expansion

  • Author: R. K. Nesbet

  • Year: 2023 (arXiv), published in Symmetry in 2024

  • Citations: Currently very low (preprint shows ~1 citation)

  • Source: arXiv preprint (arXiv:2308.10399), final version published in MDPI journal Symmetry

  • Summary: This paper extends the framework of conformal symmetry to build a unified theory that combines Conformal Gravity (CG) and the Conformal Higgs Model (CHM). The author shows that this model explains galactic rotation curves and cosmic acceleration without requiring dark matter or dark energy. It further constrains the Higgs sector, proposing that the 125 GeV resonance observed experimentally might be due to gauge field interactions, not a Standard Model Higgs boson. The theory aligns with empirical laws such as the baryonic Tully–Fisher relation and predicts finite-size galactic halos based on non-classical gravitational effects.

2. Conformal Theory of Gravitation and Cosmology

  • Author: R. K. Nesbet

  • Year: 2020

  • Citations: Approximately 7 citations

  • Source: Published in Europhysics Letters (EPL)

  • Summary: This article introduces and formalizes the application of conformal symmetry in gravitation and cosmology. The gravitational theory replaces Einstein’s field equations with equations derived from the conformal Weyl tensor, leading to a solution that fits galactic rotation curves without dark matter. Simultaneously, the Conformal Higgs Model modifies the cosmological Friedmann equation to fit supernova-based Hubble expansion data, offering a single-parameter explanation for cosmic acceleration. The paper also addresses the radial acceleration relation observed in galaxies and predicts a definite boundary to galactic halos beyond which centripetal acceleration drops to zero.

3. Conformal Gravity: Newton’s Constant Is Not Universal

  • Author: R. K. Nesbet

  • Year: 2022

  • Source: EPL (Europhysics Letters)

  • Summary: This article argues that in the conformal framework, Newton’s gravitational constant emerges from spontaneous symmetry breaking and is not universally fixed. It challenges the standard cosmological model’s assumption of a constant G and suggests variability in gravitational coupling at galactic and cosmological scales.

4. Weyl Conformal Symmetry Model of the Dark Galactic Halo

  • Author: R. K. Nesbet

  • Year: 2022

  • Citations: 1

  • Source: Galaxies (MDPI)

  • Summary: This study focuses on modeling dark galactic halos using Weyl conformal symmetry. The proposed model eliminates the need for dark matter by explaining gravitational effects purely through modified gravitational dynamics. It aligns with observed galaxy data and presents an alternative framework to traditional dark matter theories.

5. Implications of the Conformal Higgs Model

  • Author: R. K. Nesbet

  • Year: 2022

  • Source: Particles (MDPI)

  • Summary: This paper discusses the broader implications of the Conformal Higgs Model, particularly how spontaneous symmetry breaking in a conformal theory can generate the observed properties of particles and vacuum energy without a fundamental Higgs boson mass term. It aims to connect cosmological observations with particle physics.

6. Conformal Higgs Model: Gauge Fields Can Produce a 125 GeV Resonance

  • Author: R. K. Nesbet

  • Year: 2021

  • Citations: 3

  • Source: Modern Physics Letters A

  • Summary: Here, the author argues that the 125 GeV resonance observed in experiments (usually attributed to the Higgs boson) could instead arise from gauge field effects in a conformally symmetric theory. This provides an alternative view of electroweak symmetry breaking and the Higgs mechanism.

7. Dark Energy Density Predicted and Explained

  • Author: R. K. Nesbet

  • Year: 2019

  • Citations: 6

  • Source: EPL (Europhysics Letters)

  • Summary: This article claims to explain the observed value of dark energy density within the conformal Higgs framework. The energy density arises naturally from the modified gravitational equations, potentially solving one of the most challenging problems in cosmology without invoking a cosmological constant.

8. Theoretical Implications of the Galactic Radial Acceleration Relation of McGaugh, Lelli, and Schombert

  • Author: R. K. Nesbet

  • Year: 2018

  • Citations: 8

  • Source: Monthly Notices of the Royal Astronomical Society: Letters

  • Summary: This paper analyzes the empirical radial acceleration relation in galaxies, as reported by McGaugh and collaborators, through the lens of conformal gravity. It suggests that the correlation between baryonic and observed acceleration can be derived from conformal gravitational dynamics, providing a theoretical foundation for the empirical results.

9. Dark Galactic Halos without Dark Matter

  • Author: R. K. Nesbet

  • Year: 2015

  • Citations: 10

  • Source: EPL (Europhysics Letters)

  • Summary: In this foundational work, Nesbet uses conformal gravity to explain the existence and properties of galactic halos without invoking dark matter. The model accounts for the observed flat rotation curves and offers a novel interpretation of gravitational effects in galaxies.

10. Conformal Gravity: Dark Matter and Dark Energy

  • Author: R. K. Nesbet

  • Year: Not clearly specified, but before 2022

  • Citations: 23

  • Source: Appears to be a review or survey article, possibly based on earlier EPL papers

  • Summary: This comprehensive overview summarizes Nesbet’s work on conformal gravity as an alternative to dark matter and dark energy. It synthesizes previous results and places them in the context of observational cosmology, arguing for the viability of conformal symmetry as a fundamental principle in physics.

Conclusion

In the arc of Robert K. Nesbet’s journey, we find the essence of a true scientific visionary—unbound by discipline or decade . His path from Harvard and Cambridge to IBM, Pasteur Institute, and beyond reflects both depth and versatility . Even in retirement, Nesbet’s mind continued to explore—from quantum intricacies to cosmic enigmas, revealing the enduring passion of a thinker driven by fundamental truths . With over 300 publications, editorial leadership, and international teaching, he stands as a pillar of 20th and 21st-century theoretical inquiry . His legacy lives not only in published equations or computational models but in the questions he dared to ask—bridging micro and macro, matter and meaning . As both scholar and mentor, Nesbet’s work offers a timeless reminder: curiosity knows no retirement, and the search for understanding is a lifelong pursuit .

Dr. Mona Jani | Physics | Best Researcher Award

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Dr. Mona Jani | Physics | Best Researcher Award

Senior Researcher at University of Latvia, Latvia

Dr. Mona Jani is a globally recognized physicist with a vibrant career spanning research, teaching, and innovation in material science and quantum technologies . She holds a Ph.D. in Physics from Savitribai Phule Pune University, India, with pioneering work on manganite nanoparticles. Her postdoctoral and research journey led her through premier institutes in Taiwan , Brazil, Czech Republic, Poland, and Germany, showcasing her versatility in nanodiamond biosensing, superconductivity, and quantum magnetometry. With teaching stints in India and Ecuador, she brings a blend of academic rigor and global perspective to classrooms. Her impactful work in photonic quantum biosensing and NV-center diamond research positions her at the cutting edge of future bio-diagnostic technologies. Honored with prestigious fellowships and awards including the FORTHEM Award  and several international grants, Dr. Jani continues to mentor, publish, and innovate, leaving a legacy of excellence in physical sciences and beyond.

Professional Profile 

Education

Dr. Mona Jani’s academic foundation is deeply rooted in excellence and exploration. She earned her Ph.D. in Physics (2005–2010) from Savitribai Phule Pune University, India, supported by a CSIR-SRF fellowship under UGC regulations. Her thesis focused on “Manganite Nanoparticles: Synthesis and Applications”—a frontier topic in condensed matter physics. Prior to her doctoral pursuit, she completed her M.Sc. in Physics from Fergusson College, Pune, with a remarkable and distinction honors. She holds a B.Sc. in Physics, Mathematics, and Statistics from H.V. Desai College, securing —also with distinction. Her educational path reveals a consistent record of academic brilliance paired with early involvement in research activities, setting the stage for a multidisciplinary research career. From nanoparticle synthesis to cutting-edge quantum sensing, her learning journey showcases both depth and diversity, building a robust knowledge base that fuels her innovative pursuits in material science and quantum technology.

Professional Experience

Dr. Mona Jani’s professional career is a tapestry woven with global collaborations, research breakthroughs, and transformative teaching. Post-Ph.D., she served as a research scientist and postdoc at premier institutes including the University of Campinas, National Dong Hwa University, IOCB Prague, and Jagiellonian University. Her work spans nanodiamond biosensing, superconducting materials, and magneto-transport phenomena. At DESY (Germany), she was a visiting scientist, mastering advanced synchrotron techniques. As a faculty member, she taught physics and materials science courses at Yachay Tech University and Ahmedabad University, enriching students with her global insights. Her technical expertise includes spectroscopic techniques, ODMR, and magnetization studies—skills honed across continents and disciplines. Dr. Jani’s career reflects a powerful synergy between research and teaching, marked by innovation and student mentorship. Her ability to traverse academia and advanced labs exemplifies a rare scientific versatility and global engagement.

Research Interests

Dr. Mona Jani’s research compass points boldly toward the quantum frontier and materials innovation . Her central interests lie in Quantum Diamond Magnetometry, employing NV centers in diamonds for ultra-sensitive magnetic field detection and nanoscale imaging. She’s a trailblazer in Photonic Quantum Biosensing, using quantum effects in nanodiamonds to revolutionize bio-diagnostics and medical imaging. With foundational expertise in Superconductivity and Magneto-Transport, she investigates how exotic states emerge in semimetals and functional materials. She also explores Structural and Spectroscopic Characterization using Raman, IR, and PL spectroscopy to decode material behavior. Her earlier research explored surface-modified nanodiamonds for biomedical imaging and manganites for multifunctional device applications. Dr. Jani’s curiosity-driven science bridges physics, biology, and chemistry—demonstrating how quantum principles can enable transformative real-world solutions. With every project, she dives deeper into matter’s smallest scales to uncover phenomena that could redefine sensing, imaging, and materials engineering .

Awards and Honors

Dr. Mona Jani’s scientific odyssey is decorated with prestigious awards and recognitions that affirm her excellence and impact . In 2025, she received the FORTHEM Award from Germany—honoring her quantum biosensing innovations. Earlier, she earned competitive postdoctoral fellowships from FAPESP (Brazil), NSC (Taiwan), and IOCB (Czech Republic)—testimonies to her international research caliber. She was also awarded the DST Inspire Faculty Fellowship in India and fellowships from CSIR as both SRF and RA. Beyond fellowships, she clinched first prizes at top scientific symposiums including the DAE-BRNS ISMC 2008 and the Raman Memorial Conference 2005 . These accolades highlight not just her academic brilliance, but also her presentation skills, innovation, and peer recognition. Her research projects—often institutionally funded—underscore the trust placed in her by top scientific bodies worldwide. Through dedication and visionary work, Dr. Jani continues to raise the bar in quantum materials science and biosensing frontiers.

Publications Top Notes

  • Title: Quantum diamond microscopy of individual vaterite microspheres containing magnetite nanoparticles
    Authors: M. Jani, H. Barhum, J. Alnis, M. Attrash, T. Amro, N. Bar-Gill, T. Salgals, …
    Year: 2025
    Citation: – (Preprint, no citation data yet)
    Source: Preprint (not yet peer-reviewed/published)

  • Title: Multi-parameter study of a diamond magnetometer
    Authors: M. Jani, R. Lazda, F. Gāhbauer, A. Asare, M. Mrózek, A.M. Wojciechowski, …
    Year: 2025
    Citation: 1
    Source: Peer-reviewed journal (exact journal not specified)

  • Title: Optically detected magnetic resonance study of thermal effects due to absorbing environment around nitrogen-vacancy-nanodiamond powders
    Authors: M. Jani, Z. Orzechowska, M. Mrózek, M. Mitura-Nowak, W. Gawlik, …
    Year: 2024
    Citation: 1
    Source: Peer-reviewed journal (exact journal not specified)

  • Title: Sensing of magnetic-field gradients with nanodiamonds on optical glass-fiber facets
    Authors: M. Jani, P. Czarnecka, Z. Orzechowska, M. Mrózek, W. Gawlik, …
    Year: 2023
    Citation: 8
    Source: Peer-reviewed journal (likely Sensors or similar)

  • Title: FND-glass Fiber Interfaces and Their Optically Detectable Magnetic Resonance Studies
    Authors: M. Jani, P. Czarnecka, A. Filipkowski, S. Sengottuvel, M. Mrózek, …
    Year: 2022
    Citation:
    Source: Peer-reviewed journal (exact source not provided)

  • Title: Magnetically-sensitive nanodiamond thin-films on glass fibers
    Authors: P. Czarnecka, M. Jani, S. Sengottuvel, M. Mrózek, P. Dąbczyński, …
    Year: 2022
    Citation: 14
    Source: Peer-reviewed journal (possibly Applied Physics Letters or Scientific Reports)

  • Title: Role of high nitrogen‐vacancy concentration on the photoluminescence and Raman spectra of diamond
    Authors: M. Jani, M. Mrózek, A.M. Nowakowska, P. Leszczenko, W. Gawlik, …
    Year: 2022
    Citation: 11
    Source: Peer-reviewed journal (likely Physica Status Solidi or equivalent)

  • Title: Engineered zero-dimensional fullerene/carbon dots-polymer based nanocomposite membranes for wastewater treatment
    Authors: M. Jani, J.A. Arcos-Pareja, M. Ni
    Year: 2020
    Citation: 60
    Source: Journal of Hazardous Materials or similar environmental nanotech journal

  • Title: Using Polymers to Enhance the Carbon Nanomaterial Biointerface
    Authors: G. Pramanik, J. Neburkova, V. Vanek, M. Jani, M. Kindermann, P. Cigler
    Year: 2019
    Citation: 2
    Source: Book Chapter in Springer/Nanotechnology series

  • Title: Long-Term Imaging: Supported Lipid Bilayers on Fluorescent Nanodiamonds: A Structurally Defined and Versatile Coating for Bioapplications
    Authors: J. Vavra, I. Rehor, T. Rendler, M. Jani, J. Bednar, M.M. Baksh, A. Zappe, …
    Year: 2018
    Citation: 2
    Source: Nano Letters (communication/short format)

  • Title: Supported lipid bilayers on fluorescent nanodiamonds: A structurally defined and versatile coating for bioapplications
    Authors: J. Vavra, I. Rehor, T. Rendler, M. Jani, J. Bednar, M.M. Baksh, A. Zappe, …
    Year: 2018
    Citation: 28
    Source: ACS Nano or similar high-impact journal

  • Title: Antibacterial effect of ultrafine nanodiamond against gram-negative bacteria Escherichia coli
    Authors: A. Chatterjee, E. Perevedentseva, M. Jani, C.Y. Cheng, Y.S. Ye, P.H. Chung, …
    Year: 2015
    Citation: 70
    Source: Nanoscience and Nanotechnology Letters or Scientific Reports

Conclusion

Dr. Mona Jani emerges as a beacon in the world of quantum physics and material sciences, harmonizing knowledge, innovation, and mentorship. Her cross-continental academic journey is not just a tale of scientific exploration but one of intellectual courage and global outreach. With contributions spanning superconductors to nanodiamonds, she exemplifies how fundamental physics can translate into impactful technologies for healthcare, imaging, and diagnostics . A seasoned mentor and educator, she fosters scientific curiosity in students while shaping next-gen researchers across India, Latin America, and Europe. Her awards reflect both her trailblazing science and her community engagement. By bridging quantum theory with real-world bioapplications, she is at the vanguard of shaping a smarter, more sensitive scientific future. In every role—researcher, teacher, or mentor—Dr. Jani continues to inspire with depth, precision, and vision, leaving an indelible mark on modern science and education.

Prof. Raoelina Andriambololona | Physics | Best Researcher Award

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Prof. Raoelina Andriambololona | Physics | Best Researcher Award

Emeritus Professor at Institut National des Sciences et Techniques Nucléaires, Madagascar

Prof. Raoelina Andriambololona 🇲🇬 is an iconic figure in the global scientific community, renowned for his pioneering contributions to nuclear physics, theoretical science, and sustainable development. With over six decades of dedicated service, he has transformed science and technology education in Madagascar and across Africa. From being a CNRS researcher in France to establishing world-class research institutions back home, Prof. Raoelina’s vision is deeply rooted in innovation, self-reliance, and scientific ethics. A prolific author of 250+ publications 📚 and several university-level books, he continues to inspire generations of physicists. His leadership in nanotechnology, environmental protection, and science diplomacy has earned him numerous global honors 🏅. Fluent in Malagasy, French, and English, and with professional footprints in over 30 countries, Prof. Raoelina stands as a beacon of excellence, dedication, and intellectual humility. His legacy is not only academic but deeply humanistic 🌱💡.

Professional Profile 

🎓 Education

Prof. Raoelina’s academic odyssey began in Madagascar and blossomed at the University of Aix-Marseille, France 🇫🇷, where he obtained his Doctorat ès Sciences d’État in 1967. His earlier credentials include a Doctorate of 3rd Cycle in Theoretical Physics (1962), diplomas in pure and applied mathematics (1957–1958), and a degree in physical sciences. This rich foundation empowered his intellectual pursuit across quantum theory, linear algebra, and advanced mechanics 🧠📘. His education wasn’t just confined to acquiring degrees but focused on laying the groundwork for a national educational revolution in Madagascar. The blend of French scientific rigor and Malagasy passion shaped him into a transcontinental academic luminary. His multilingual fluency in Malagasy, French, and English further cemented his ability to bridge knowledge between diverse cultures 🌐🗣️. His journey embodies a harmonious union of deep theoretical insight and practical academic engineering.

🧪 Professional Experience

Prof. Raoelina’s professional career radiates across continents and sectors, beginning as a researcher at CNRS–Marseille in the 1960s and later as Professor Titulaire in Madagascar by 1972 🧑‍🏫. He was instrumental in founding multiple institutions from scratch, including the Laboratoire de Physique Nucléaire and the Institut National des Sciences et Techniques Nucléaires (INSTN). Nationally, he shaped physics education, built observatories, and opened the first graduate programs in nuclear physics. Internationally, he served as an advisor to the UNDP, IAEA liaison officer for decades, Fulbright professor in the U.S., and UNESCO expert advisor 🌍🔬. His role as Scientific Advisor to the President of Madagascar (1986–1991) further reflects his unique ability to integrate science with policy and national development. Raoelina is not only a pioneer in academia but a strategist in science infrastructure development, capacity building, and global knowledge networks 🧭🏗️.

🔬 Research Interests

Prof. Raoelina’s research traverses a remarkable spectrum—ranging from particle physics, quantum mechanics, and nuclear spectroscopy to nanotechnology, fractional calculus, and environmental science. His scientific curiosity has been deeply interdisciplinary, focusing also on linear and multilinear algebra, development studies, and ethics in science 🧠🌿. His commitment to applied research is evident in his work on X-ray fluorescence for ore analysis, radiation protection, and environmental monitoring. With a sharp lens on the challenges of developing countries, he emphasizes indigenous knowledge, sustainability, and technology transfer 📈. His vision of endogenous development and the use of native language in science education marks him as both a thought leader and cultural reformist. His 250+ publications are not just academic outputs but serve as knowledge vehicles across generations and geographies. Prof. Raoelina’s research transcends the lab—blending intellect with societal impact 🎯📖.

🏆 Awards and Honors

Prof. Raoelina’s excellence has been globally acknowledged through numerous prestigious honors 🌟. He is the 2020 recipient of the TWAS-C.N.R. Rao Award for Scientific Research and holds national decorations such as the Grand-Croix de 2ème classe de l’Ordre National Malagasy (1997) and Commandeur de l’Ordre du Mérite de Madagascar (1991). These awards recognize not only his scholarly brilliance but also his unwavering dedication to national science development. His election to the African Academy of Sciences, TWAS, and the New York Academy of Sciences confirms his impact on the international stage 🌐. As the founding president of several national scientific societies and advisory boards, his role as a scientific statesman is undeniable. Through music, ethics, and education, his contributions have extended beyond the lab and lecture hall. These accolades are testaments to a life passionately lived in service of knowledge and humanity 🕊️📜.

📚 Publications Top Note 

1.Title: Assessment of soil redistribution rates by 137Cs and 210Pbex in a typical Malagasy agricultural field
Authors: N Rabesiranana, M Rasolonirina, AF Solonjara, HN Ravoson, …
Year: 2016
Citations: 32
Source: Journal of Environmental Radioactivity, Volume 152, Pages 112-118
Summary:
This study investigates soil erosion and redistribution rates in agricultural fields of Madagascar using radioactive tracers 137Cs and 210Pbex. These isotopes serve as markers to quantify soil movement and deposition, offering insights into land degradation processes in typical Malagasy agricultural settings.

2.Title: Algèbre linéaire et multilinéaire
Author: R Andriambololona
Year: 1986
Citations: 28
Source: Applications, Collection LIRA, INSTN Madagascar
Summary:
A comprehensive treatise on linear and multilinear algebra, focusing on theoretical foundations and applications. It is a foundational text for mathematical education and research in Madagascar, especially in algebraic structures relevant to physics and engineering.

3.Title: Top soil radioactivity assessment in a high natural radiation background area: The case of Vinaninkarena, Antsirabe—Madagascar
Authors: N Rabesiranana, M Rasolonirina, F Terina, AF Solonjara, …
Year: 2008
Citations: 24
Source: Applied Radiation and Isotopes, Volume 66, Issue 11, Pages 1619-1622
Summary:
This paper assesses the natural radioactivity levels in the topsoil of Vinaninkarena, an area with high natural radiation background in Madagascar. The findings provide important baseline data for environmental radiation monitoring and public health considerations.

4.Title: Dispersion Operators Algebra and Linear Canonical Transformations
Authors: R Andriambololona, RT Ranaivoson, R Hasimbola Damo Emile, …
Year: 2017
Citations: 22
Source: International Journal of Theoretical Physics, Volume 56, Issue 4, Pages 1258-1273
Summary:
This article presents a theoretical framework linking dispersion operators algebra with linear canonical transformations, important in mathematical physics and quantum mechanics. It advances the understanding of operator theory in quantum contexts.

5.Title: Study on a phase space representation of quantum theory
Authors: T Ranaivoson, R Andriambololona, R Hanitriarivo, R Raboanary
Year: 2013
Citations: 21
Source: arXiv preprint arXiv:1304.1034
Summary:
The paper explores phase space formulations of quantum mechanics, offering novel insights into representing quantum states and operators. It emphasizes the theoretical and computational advantages of this approach.

6.Title: Cleft lip and palate in Madagascar 1998–2007
Authors: RA Rakotoarison, AE Rakotoarivony, N Rabesandratana, …
Year: 2012
Citations: 20
Source: British Journal of Oral and Maxillofacial Surgery, Volume 50, Issue 5, Pages 430-434
Summary:
An epidemiological study documenting the incidence, treatment, and outcomes of cleft lip and palate cases in Madagascar over a decade. The research highlights healthcare challenges and the need for improved surgical interventions.

7.Title: Definitions of real order integrals and derivatives using operator approach
Author: R Andriambololona
Year: 2012
Citations: 20
Source: arXiv preprint arXiv:1207.0409
Summary:
This paper introduces an operator-based method to define fractional calculus concepts such as real order integrals and derivatives, contributing to the mathematical theory with potential applications in physics and engineering.

8.Title: Linear canonical transformations in relativistic quantum physics
Authors: RT Ranaivoson, R Andriambololona, H Rakotoson, R Raboanary
Year: 2021
Citations: 17
Source: Physica Scripta, Volume 96, Issue 6, 065204
Summary:
The authors analyze the role of linear canonical transformations in the framework of relativistic quantum physics, exploring their implications for the symmetry and dynamics of quantum systems.

9.Title: A study of the Dirac-Sidharth equation
Authors: R Andriambololona, C Rakotonirina
Year: 2009
Citations: 16
Source: arXiv preprint arXiv:0910.2868
Summary:
The paper investigates the Dirac-Sidharth equation, a modification of the Dirac equation in quantum mechanics, focusing on its mathematical properties and physical interpretations.

10.Title: Time-Frequency analysis and harmonic Gaussian functions
Authors: T Ranaivoson, R Andriambololona, R Hanitriarivo
Year: 2013
Citations: 15
Source: arXiv preprint arXiv:1303.1909
Summary:
This research develops methods for time-frequency analysis using harmonic Gaussian functions, relevant for signal processing and quantum mechanics.

11.Title: Mécanique quantique
Author: R Andriambololona
Year: 1990
Citations: 15
Source: Collection LIRA, INSTN Madagascar, pp. 25.387-394
Summary:
A foundational book on quantum mechanics, covering theoretical concepts, mathematical formalism, and applications. It serves as a key reference for students and researchers in Madagascar.

🧭 Conclusion

Prof. Raoelina Andriambololona is not merely a scientist—he is a visionary builder of nations through science 🌍🏛️. His unparalleled contributions in education, research, and policy over six decades mark him as a towering intellectual of Africa and the global South. With a career rooted in humility, foresight, and innovation, he has redefined what it means to be a scientist in service of humanity. His legacy is cemented in institutions, publications, and minds that continue to carry forward his mission 💡📚. Whether in physics, ethics, development, or music, Prof. Raoelina remains a multifaceted scholar and cultural pillar. His work exemplifies the role of science in shaping just, informed, and sustainable societies. As future generations draw inspiration from his life’s work, his name shall endure in the annals of both scientific discovery and national empowerment 🌟🧬.

Keumo Tsiaze Roger Magloire | Physics | Best Researcher Award

Published on by Physicist Particle

Dr. Keumo Tsiaze Roger Magloire | Physics | Best Researcher Award

Dr. Keumo Tsiaze Roger Magloire at University of Yaoundé I, Cameroon

Dr.Keumo Tsiaze Roger Magloire is a dynamic and passionate physicist 🎓, blending solid academic roots with hands-on research and pedagogical experience. Holding a Master’s, Bachelor’s, and a Teaching Diploma in Physics from the University of Yaoundé I 🇨🇲, he has demonstrated flexibility, innovation, and team spirit throughout his academic and professional journey. Currently serving as an Associate Researcher at the prestigious ICMPA-UNESCO Chair in Benin 🇧🇯, he excels in theoretical and computational physics, with interests in quantum information theory and the structure-property relationship of novel materials. Proficient in LaTeX, MATLAB, and Maple 💻, he balances his scientific rigor with humanitarian activities and sports ⚽🏐. His multilingual skills (native in French, C1 in English) add to his global research engagement 🌍. Driven by curiosity and commitment, Dr. KEUMO contributes meaningfully to cutting-edge research projects in superconductivity, magnetism, and nanostructures.

Professional Profile 

Orcid

Google Scholar

🎓 Education

Dr. Keumo’s academic foundation is rooted in excellence. He earned his Bachelor’s and Master’s degrees in Physics, along with a Second Grade Teaching Diploma, from the University of Yaoundé I 🏛️. This blend of scientific and pedagogical training empowers him with both technical depth and classroom agility. His education cultivated a strong understanding of mechanics, materials, and structural behavior under diverse conditions 🧪. The teaching diploma gave him a professional edge in delivering complex concepts clearly and effectively 🗣️. Dr. KEUMO’s educational journey reflects resilience, curiosity, and dedication to learning, which he continues to apply in his research and teaching. His capacity to work across academic disciplines is a reflection of the comprehensive scientific preparation he received during his formative academic years.

💼 Professional Experience

Currently, Dr. Keumo holds a distinguished position as Associate Researcher at the International Chair of Mathematical Physics and Applications (ICMPA-UNESCO) in Cotonou, Benin 🌐. His role involves advanced theoretical investigations into quantum materials and superconducting phenomena. With strong computational skills in LaTeX, MATLAB, and Maple, he effectively navigates complex modeling and simulations ⚙️. His earlier experience at the University of Yaoundé I included laboratory research in mechanics and material sciences, where he honed his adaptability and team collaboration skills. Known for his creative and critical thinking, he consistently demonstrates the ability to engage with multidisciplinary challenges. The teaching dimension of his profile, grounded in a second-grade diploma, gives him a unique pedagogical strength 📚, allowing him to contribute effectively in both research and academic mentoring environments.

🔬 Research Interests

Dr. Keumo’s research landscape is vast and profound 🌌. He explores structure-property relationships in novel materials, emphasizing their behavior in complex environments. His work in quantum information theory delves into the heart of modern physics, pushing boundaries in areas like quantum dots and superconducting qubits. His current projects focus on superconducting ferromagnets, tunneling wire qubits, and two-dimensional TMDCs (like MoS₂, WS₂) used in Josephson junction laser systems ⚡. He is deeply invested in understanding multiferroic systems, exchange interactions, and size effects in amorphous magnetic materials. Dr. KEUMO’s theoretical models aim to predict new phenomena and aid technological advancements in quantum computing and nanoscale magnetism 💡. His interdisciplinary vision positions him at the intersection of theoretical physics and material science, making his research both futuristic and applicable.

🏅 Awards and Honors

Though specific awards are not listed, Dr. Keumo’s esteemed roles and affiliations speak volumes 🌟. Being appointed an Associate Researcher at ICMPA-UNESCO Chair is itself a testament to his scholarly merit and recognition in the international physics community. His achievements in teaching and research demonstrate a blend of academic honor and societal contribution. His pedagogical credentials, coupled with his involvement in humanitarian outreach, reflect a commitment to uplifting others through knowledge and service 🙌. His bilingual abilities in French and English 🗨️ also enhance his global academic engagement. The respect he commands in both francophone and anglophone research circles adds a multicultural dimension to his scholarly persona.

📚 Publications Top Note 

1. The intensity and direction of the electric field effects on off-center shallow-donor impurity binding energy in wedge-shaped cylindrical quantum dots

  • Authors: L. Belamkadem, O. Mommadi, R. Boussetta, S. Chouef, M. Chnafi, …

  • Year: 2022

  • Citations: 31

  • Source: Thin Solid Films, Vol. 757, 139396

  • Summary: Investigates how varying the intensity and direction of electric fields alters the binding energy of off-center shallow donor impurities in wedge-shaped cylindrical quantum dots. It reveals key insights into impurity localization and tunability of electronic properties in nanostructures.

2. Tunable potentials and decoherence effect on polaron in nanostructures

  • Authors: A.J. Fotue, M.F.C. Fobasso, S.C. Kenfack, M. Tiotsop, J.R.D. Djomou, …

  • Year: 2016

  • Citations: 29

  • Source: The European Physical Journal Plus, Vol. 131, 1–15

  • Summary: Explores how tunable potential wells and decoherence mechanisms affect polarons in quantum dots and other nanostructures. It provides theoretical frameworks to understand energy loss and coherence in nanomaterials.

3. Deformation and size effects on electronic properties of toroidal quantum dot in the presence of an off-center donor atom

  • Authors: R. Boussetta, O. Mommadi, L. Belamkadem, S. Chouef, M. Hbibi, …

  • Year: 2022

  • Citations: 26

  • Source: Micro and Nanostructures, Vol. 165, 207209

  • Summary: Analyzes how geometric deformations and scaling influence the electronic structure of toroidal quantum dots with embedded donor atoms. Provides guidance for quantum device engineering at nanoscale dimensions.

4. Renormalized Gaussian approach to critical fluctuations in the Landau–Ginzburg–Wilson model and finite-size scaling

  • Authors: R.M.K. Tsiaze, S.E.M. Tchouobiap, J.E. Danga, S. Domngang, …

  • Year: 2011

  • Citations: 12

  • Source: Journal of Physics A: Mathematical and Theoretical, Vol. 44 (28), 285002

  • Summary: Develops a renormalized Gaussian approximation to analyze critical fluctuations and finite-size effects in systems governed by the Landau-Ginzburg-Wilson model. Useful in studying phase transitions in condensed matter.

5. Thermodynamic properties of a monolayer transition metal dichalcogenide (TMD) quantum dot in the presence of magnetic field

  • Authors: T.V. Diffo, A.J. Fotue, S.C. Kenfack, R.M.K. Tsiaze, E. Baloitcha, …

  • Year: 2021

  • Citations: 11

  • Source: Physics Letters A, Vol. 385, 126958

  • Summary: Examines the influence of magnetic fields on the thermodynamic behavior of TMD-based quantum dots. Highlights changes in specific heat, entropy, and magnetization, which are key for quantum computing and thermoelectric devices.

6. Cumulative effects of fluctuations and magnetoelectric coupling in two-dimensional RMnO₃ (R = Tb, Lu and Y) multiferroics

  • Authors: G.E.T. Magne, R.M.K. Tsiaze, A.J. Fotué, N.M. Hounkonnou, L.C. Fai

  • Year: 2021

  • Citations: 10

  • Source: Physics Letters A, Vol. 400, 127305

  • Summary: Studies the interaction of critical fluctuations and magnetoelectric coupling in rare-earth manganite multiferroics. Offers theoretical support for the development of multifunctional spintronic devices.

7. Dynamics and decoherence of exciton polaron in monolayer transition metal dichalcogenides

  • Authors: C. Kenfack-Sadem, A.K. Teguimfouet, A. Kenfack-Jiotsa, R.M.K. Tsiaze

  • Year: 2021

  • Citations: 6

  • Source: Journal of Electronic Materials, Vol. 50 (5), 2911–2921

  • Summary: Investigates exciton-polaron behavior in 2D TMDs, especially focusing on quantum coherence loss and dynamical evolution. Provides insight into carrier dynamics relevant for optoelectronic device design.

8. Renormalized Gaussian approach to size effects and exchange interactions: Application to localized ferromagnets and amorphous magnets

  • Authors: R.M.K. Tsiaze, A.V. Wirngo, S.E.M. Tchouobiap, E. Baloïtcha, M.N. Hounkonnou

  • Year: 2018

  • Citations: 5

  • Source: Journal of Magnetism and Magnetic Materials, Vol. 465, 611–620

  • Summary: Applies Gaussian field methods to analyze magnetic size effects and exchange interactions, contributing to understanding localized and amorphous magnetic materials.

9. Effects of critical fluctuations and dimensionality on the jump in specific heat at the superconducting transition temperature: Application to YBa₂Cu₃O₇−δ, Bi₂Sr₂CaCu₂O₈, …

  • Authors: R.M. Keumo Tsiaze, A.V. Wirngo, S.E. Mkam Tchouobiap, A.J. Fotue, …

  • Year: 2016

  • Citations: 5

  • Source: Physical Review E, Vol. 93 (6), 062105

  • Summary: Explores how fluctuations and system dimensionality influence the heat capacity jump during superconducting transitions, offering insight into the thermodynamics of high-Tc materials.

10. Landau-Zener tunneling of qubit states and Aharonov-Bohm interferometry in double quantum wires

  • Authors: J.E. Danga, S.C. Kenfack, R.M.K. Tsiaze, L.C. Fai

  • Year: 2019

  • Citations: 4

  • Source: Physica E: Low-dimensional Systems and Nanostructures, Vol. 108, 123–134

  • Summary: Theoretically examines quantum state tunneling and interference phenomena in coupled quantum wires. Relevant for future quantum information transport systems.

11. Coherent nonlinear low-frequency Landau–Zener tunneling induced by magnetic control of a spin qubit in a quantum wire

  • Authors: S.E. Mkam Tchouobiap, J.E. Danga, R.M. Keumo Tsiaze, L.C. Fai

  • Year: 2018

  • Citations: 4

  • Source: International Journal of Quantum Information, Vol. 16 (06), 1850049

  • Summary: Studies the coherent control of qubit tunneling using low-frequency magnetic fields. Highlights prospects for non-destructive quantum gate operations.

12. Theoretical study of two biquadratically coupled order parameters: Application to two-dimensional multiferroics

  • Authors: G.E.T. Magne, R.M.K. Tsiaze, A.J. Fotué, L.C. Fai

  • Year: 2020

  • Citations: 2

  • Source: Journal of Magnetism and Magnetic Materials, Vol. 504, 166661

  • Summary: The paper develops a theoretical model for analyzing the coupling between electric and magnetic orders in 2D multiferroic materials. Crucial for the design of multifunctional materials in nanoelectronics.

📌 Conclusion

Dr. Keumo Tsiaze Roger Magloire is a well-rounded, visionary researcher and educator whose work transcends borders 🌍. With a strong educational base, active involvement in cutting-edge theoretical research, and an innate ability to communicate scientific ideas, he continues to make significant strides in physics. His current investigations into superconductivity, magnetism, and quantum systems reflect his deep curiosity and scientific rigor 🔍. Committed to both science and humanity, Dr. KEUMO balances his intellectual pursuits with a love for sports and social engagement ⚽. Fluent in multiple languages, skilled in computation, and grounded in pedagogy, he exemplifies the modern physicist-scholar. His journey is marked by innovation, adaptability, and impact—qualities that promise continued contributions to the global scientific community 🔬✨.

Joshua Benjamin | Physics | Best Researcher Award

Published on by Physicist Particle

Mr. Joshua Benjamin | Physics | Best Researcher Award

Lagos Nigeria at TYDACOMM Nigeria Limited, Nigeria

benjamin, joshua olamide is a dedicated scholar and researcher passionate about space physics, ionospheric studies, and space weather. He holds a first-class degree in pure and applied physics from Ladoke Akintola University of Technology and a distinction in space physics from the African University of Science and Technology. With experience in RF network planning and optimization, teaching, and research, he combines technical expertise with strong analytical skills. Proficient in MATLAB, Microsoft Office, and data analysis tools, he is committed to innovation, leadership, and academic excellence. His research contributes to understanding ionospheric models and their impact on space weather. 🚀📡

Professional Profile

Education & Experience 🎓💼

  • [2022] MSc in Space Physics (Distinction) – African University of Science and Technology 📡
  • [2019] B.Tech in Pure and Applied Physics (First Class) – Ladoke Akintola University of Technology 🔬
  • [2023 – Present] RF Network Planning & Field Test Engineer – TYDACOMM Nigeria Limited 📶
  • [2020 – 2021] NYSC Mathematics & Economics Teacher – Jofegal International School 📚
  • [2018] Internship at Perfect Seven Solar Company – Solar System Maintenance ☀️
  • [2011 – 2012] Mathematics Teacher – Fountain of Knowledge Group of School 📏

Professional Development 📖🔍

benjamin, joshua olamide has actively participated in multiple international colloquiums and workshops related to space science, GNSS, and ionospheric studies. He has certifications in health, safety, and environment (HSE Levels 1-3) and has completed training in soft skills, entrepreneurship, and critical thinking. His involvement in research and development, coupled with hands-on experience in field testing, data collection, and RF network optimization, showcases his versatility. Passionate about academic excellence, he regularly engages in professional training, leadership roles, and mentorship programs to enhance his expertise in space physics and its applications. 🌍🛰️

Research Focus 🔬🌌

benjamin, joshua olamide specializes in ionospheric physics, space weather, and solar-terrestrial interactions. His research explores the global climatological performance of ionospheric models using Swarm satellite electron density measurements, evaluating their accuracy and implications for GNSS and communication systems. He has worked on latitudinal electron density profiles, comparing SWARM measurements with IRI models, and studying biophysics applications. His goal is to improve predictive models for space weather impacts on Earth, ensuring the safety and reliability of communication and navigation technologies. His research contributes to scientific advancements in space physics and atmospheric studies. 🌞🌍📡

Awards & Honors 🏆🎖️

  • [2022] Best Graduating Student – Institute of Space Science and Engineering 🏅
  • [2022] Best Graduating Student – Department of Space Physics 🏆
  • [2019] Akinrogun Trust Fund Award 💰
  • [2019] Best WAEC Result – New Era High School 🏅
  • [2007] One of the Best Junior WAEC Results – Greater Tomorrow College 🎓

Publication Top Notes

  1. “Investigation of the global climatologic performance of ionospheric models utilizing in-situ Swarm satellite electron density measurements”
    This paper was published in Advances in Space Research, Volume 75, Issue 5, pages 4274-4290, in 2025. The authors are:

    • D. Okoh
    • C. Cesaroni
    • J.B. Habarulema
    • Y. Migoya-Orué
    • B. Nava
    • L. Spogli
    • B. Rabiu
    • J. Benjamin

    The study offers a comprehensive investigation into the climatologic performance of three ionospheric models when compared to in-situ measurements from Swarm satellites. The models evaluated are the International Reference Ionosphere (IRI), NeQuick, and a 3-dimensional electron density model based on artificial neural network training of COSMIC satellite radio occultation measurements (3D-NN). The findings indicate that while all three models provide fairly accurate representations of the Swarm measurements, the 3D-NN model consistently performed better across various conditions.

  2. “Global Comparison of Instantaneous Electron Density Latitudinal Profiles from SWARM Satellites and IRI Model”
    This paper was published in Advances in Space Research in 2025. The authors are:

    • J.O. Benjamin
    • D.I. Okoh
    • B.A. Rabiu

    This study focuses on comparing instantaneous electron density latitudinal profiles obtained from Swarm satellites with predictions from the IRI model. The comparison aims to assess the accuracy of the IRI model in representing real-time electron density variations observed by the Swarm mission.

For full access to these publications, you may consider visiting the publisher’s website or accessing them through academic databases such as IEEE Xplore or ScienceDirect. If you are affiliated with an academic institution, you might have institutional access to these resources.

Conclusion

Benjamin, joshua olamide stands out as a promising researcher in space physics, with notable contributions to ionospheric studies, climatology models, and research-driven technological applications. His exceptional academic achievements, research output, leadership roles, and technical expertise position him as a deserving candidate for the Best Researcher Award.

Bilal Ramzan | Physics | Best Researcher Award

Published on by Physicist Particle

Dr. Bilal Ramzan | Physics and Astronomy | Best Researcher Award

Assistant Professor at University of Management and Technology Lahore Pakistan, Pakistan.

Dr. Bilal Ramzan is a distinguished astrophysicist and academic affiliated with the University of Agriculture, Faisalabad, Pakistan. As an HEC-approved Ph.D. supervisor, he has made significant contributions to the fields of astrophysics and space sciences. His research primarily focuses on cosmic rays, astrophysical plasma, and interstellar medium dynamics. With a strong academic background and extensive publication record, Dr. Ramzan has established himself as a leading researcher in his domain. He has collaborated with esteemed international scholars and presented his findings at global conferences. His work is widely cited, reflecting its impact on the scientific community. Dr. Ramzan is also deeply involved in mentoring young researchers, guiding them in theoretical and computational astrophysics. His dedication to advancing space sciences in Pakistan and beyond highlights his commitment to academic excellence and scientific discovery.

Professional Profile:

Education

Dr. Bilal Ramzan has a robust academic background, with a Ph.D. in Astronomy and Astrophysics from the Graduate Institute of Astronomy, National Central University, Taiwan, where he graduated in 2021 with a GPA of 3.4/4.0. He holds a Master’s degree in Physics from COMSATS Institute of Information and Technology, Lahore, Pakistan, completed in 2014, and a Bachelor’s degree in Physics from the same institution, obtained in 2011. Additionally, he pursued a Bachelor’s in Education from the University of Education, Lahore, in 2012. His early education includes pre-engineering studies at Nishtar College for Boys, Lahore, and matriculation from Nishtar School for Boys. His strong educational foundation in physics and astrophysics has equipped him with the necessary knowledge and skills to contribute significantly to space sciences and interstellar research.

Professional Experience

Dr. Bilal Ramzan is currently affiliated with the University of Agriculture, Faisalabad, Pakistan, where he serves as a researcher and academic mentor. His role as an HEC-approved Ph.D. supervisor enables him to guide doctoral candidates in cutting-edge astrophysical research. He has an extensive research background in cosmic-ray physics, astrophysical fluid dynamics, and magnetohydrodynamics. Dr. Ramzan has actively participated in numerous international conferences, presenting his findings on cosmic-ray-driven outflows and galactic evolution. His experience extends to collaborative projects with leading space research institutes, where he has contributed to numerical simulations and theoretical modeling of interstellar phenomena. His expertise is sought after for peer reviews, and he serves as a referee for reputed scientific journals in astrophysics. His professional career is marked by a commitment to scientific innovation, interdisciplinary collaboration, and academic leadership.

Research Interest

Dr. Bilal Ramzan’s research interests lie in the study of cosmic rays, astrophysical plasmas, interstellar medium dynamics, and space weather phenomena. He explores the impact of cosmic rays on galactic evolution, particularly in the formation of outflows and winds. His work delves into the behavior of astrophysical fluids under extreme conditions, utilizing magnetohydrodynamic (MHD) models to simulate cosmic-ray interactions. Dr. Ramzan is also interested in the applications of deep learning and quantum computing in astrophysics, focusing on algorithmic approaches to understanding space-time structures such as wormholes. His research integrates computational astrophysics with observational data, aiming to provide deeper insights into cosmic-ray propagation and the thermodynamic behavior of interstellar clouds. Through his studies, he seeks to unravel the fundamental mechanisms governing high-energy astrophysical processes.

Research Skills

Dr. Bilal Ramzan possesses advanced research skills in numerical simulations, theoretical modeling, and data analysis in astrophysics. His expertise in magnetohydrodynamics (MHD) allows him to develop computational models for cosmic-ray interactions and plasma dynamics. He is proficient in coding and utilizing high-performance computing techniques to simulate astrophysical environments. Dr. Ramzan is skilled in analyzing observational data from space telescopes and ground-based observatories, correlating theoretical models with real-world astronomical phenomena. His familiarity with deep learning and quantum algorithms enables him to explore innovative approaches in astrophysical research. He also has strong technical writing skills, with a track record of publishing in high-impact scientific journals. His ability to synthesize complex theoretical concepts into tangible research findings showcases his analytical acumen and scientific rigor.

Awards and Honors

Dr. Bilal Ramzan has received multiple recognitions for his contributions to astrophysical research. He has been invited to present his work at prestigious international conferences, including the COSPAR Scientific Assemblies and ASROC Meetings. His publications in renowned journals such as Astrophysical Journal, Astronomy & Astrophysics, and Scientific Reports reflect the high quality and impact of his research. His contributions to understanding cosmic-ray-driven outflows have been acknowledged by the scientific community, leading to collaborative opportunities with leading researchers. As an HEC-approved Ph.D. supervisor, he has also been recognized for his role in mentoring young scientists and advancing astrophysical research in Pakistan. His work continues to shape the field, earning him accolades for scientific excellence and academic leadership.

Publication Top Notes

  1. Galactic outflows in different geometries
    • Authors: Majeed, U., Ramzan, B.
    • Year: 2025
  2. A fluid approach to cosmic-ray modified shocks
    • Authors: Ramzan, B., Qazi, S.N.A., Salarzai, I., Rasheed, A., Jamil, M.
    • Year: 2024
    • Citations: 1
  3. The formation of invariant optical soliton structures…
    • Authors: Faridi, W.A., Iqbal, M., Ramzan, B., Akinyemi, L., Mostafa, A.M.
    • Year: 2024
    • Citations: 18
  4. Magnetoacoustics and magnetic quantization of Fermi states in relativistic plasmas
    • Authors: Iqbal, A., Rasheed, A., Fatima, A., Ramzan, B., Jamil, M.
    • Year: 2024
  5. Deep learning and quantum algorithms approach to investigating the feasibility of wormholes: A review
    • Authors: Rahmaniar, W., Ramzan, B., Ma’arif, A.
    • Year: 2024
    • Citations: 1
  6. Determination of the optical properties of tungsten trioxide thin film…
    • Authors: Adnan, M., Jamil, M.I., Ramzan, B., Ahmad, A., Ghani, M.U.
    • Year: 2024
  7. Propagation of dust lower hybrid wave in dusty magneto dense plasma…
    • Authors: Yaseen, A., Mir, Z., Ramzan, B.
    • Year: 2024
  8. Continuous solutions of cosmic-rays and waves in astrophysical environments
    • Authors: Irshad, K., Ramzan, B., Qazi, S.N.A., Rasheed, A., Jamil, M.
    • Year: 2023
    • Citations: 1
  9. Transonic plasma winds with cosmic-rays and waves
    • Authors: Ramzan, B., Mir, Z., Rasheed, A., Jamil, M.
    • Year: 2023
    • Citations: 2
  10. Kelvin-Helmholtz instability in magnetically quantized dense plasmas
  • Authors: Rasheed, A., Nazir, A., Fatima, A., Kiran, Z., Jamil, M.
  • Year: 2023

Conclusion

Dr. Bilal Ramzan’s remarkable contributions to astrophysics, his extensive publication record, and his commitment to academic mentorship make him a strong contender for the Best Researcher Award. His expertise in cosmic rays, space plasmas, and astrophysical fluid dynamics is evident in his high-impact research and international collaborations. His ability to integrate computational techniques with observational astrophysics highlights his innovative approach to scientific inquiry. While his achievements are significant, continued interdisciplinary collaborations and the pursuit of larger research grants could further enhance his influence in the field. Overall, Dr. Ramzan stands out as a leading researcher whose work is shaping the future of space science.

Waheeba Al-Amrani | Particle Experiments | Women Researcher Award

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Prof. Waheeba Al-Amrani | Particle Experiments | Women Researcher Award 

Prof. Waheeba Al-Amrani, Ibb University, Yemen

Prof. Waheeba Al-Amrani is a distinguished scholar and academic at Ibb University, Yemen. She holds a Ph.D. in Environmental Chemistry from Universiti Sains Malaysia, where her groundbreaking work focused on bioregeneration of modified adsorbents for wastewater treatment. With a Master’s degree in Physical Chemistry from Menoufia University and a Bachelor’s degree in General Chemistry from Ibb University, she has consistently demonstrated academic excellence.

Her research interests lie in developing innovative, low-cost solutions for pollutant removal, including advanced adsorption and bioremediation techniques. An accomplished educator and mentor, she has published 26 research papers and actively contributes to the academic and research communities through seminars, conferences, and teaching.

PROFILE

Scopus Profile

Educational Detail

Ph.D. in Environmental Chemistry: Universiti Sains Malaysia (USM), Pulau Penang, Malaysia, 2014
Dissertation: “Bioregeneration of mono amine modified silica and granular activated carbon loaded with mono-azo dyes in batch system.”

M.Sc. in Physical Chemistry: Menoufia University, Sheibin Alkoum, Menoufia, Egypt, 2009
Graduated with Excellence and Honors.
Thesis: “Removal of azo dyes using modified silica.”

B.Sc. in General Chemistry: Ibb University, Yemen, 2001
Graduated First Class with Honors.

Professional Experience

Prof. Waheeba Al-Amrani has extensive experience as a researcher and academic, contributing significantly to the fields of environmental and physical chemistry. She has been actively teaching both practical and theoretical chemistry courses at the undergraduate level at Ibb University, Yemen. Additionally, she supervises final-year research projects, mentoring students in innovative approaches to wastewater treatment and pollutant removal.

As a researcher, Prof. Al-Amrani has gained expertise in adsorption processes, employing various materials such as activated carbon and silica gel. Her work involves cultivating usable biomass, studying bioregeneration of loaded adsorbents, and applying these methodologies in advanced wastewater treatment technologies. She is proficient in using analytical techniques, including XRD, SEM, BET, EDX, HPLC, FTIR, and spectrophotometric analysis.

Prof. Al-Amrani has presented her research findings at numerous national and international conferences and seminars and has authored 26 publications in peer-reviewed journals.

Research Interests

Development of low-cost adsorbents for the removal of organic and inorganic pollutants, including mercury and anionic azo dyes, from aqueous solutions.

Bioregeneration of adsorbents, particularly granular activated carbon and modified silica, loaded with phenolic and azo dye pollutants.

Bacteria acclimation for bioremediation of wastewater, with a focus on phenolic and azo dye pollutants.

Employing advanced analytical techniques and quantum chemistry to evaluate adsorption and bioregeneration processes.

Top Notable Publications

Alkoshab, M.Q., Al-Amrani, W.A., Drmosh, Q.A., Onaizi, S.A. (2024). Zeolitic imidazolate framework-8/layered triple hydroxide composite for boosting the adsorptive removal of acid red 1 dye from wastewater. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 699, 134637.

Iddrisu, M., Al-Amrani, W.A., Merghani, A.A., Drmosh, Q.A., Onaizi, S.A. (2024). Effects of detergent on enzyme adsorption onto solid surfaces. Emergent Materials, 7(5), 2079–2086.

Al-Amrani, W.A., Onaizi, S.A. (2024). Adsorptive removal of heavy metals from wastewater using emerging nanostructured materials: A state-of-the-art review. Separation and Purification Technology, 343, 127018.

Bahadi, S.A., Iddrisu, M., Al-Sakkaf, M.K., Zahid, U., Onaizi, S.A. (2024). Optimization of methyl orange adsorption on MgFeAl-LTH through the manipulation of solution chemistry and synthesis conditions. Emergent Materials, 7(3), 959–971.

Bahadi, S.A., Iddrisu, M., Al-Sakkaf, M.K., Drmosh, Q.A., Onaizi, S.A. (2024). Chemically versus thermally reduced graphene oxide: Effects of reduction methods and reducing agents on the adsorption of phenolic compounds from wastewater. Emergent Materials, 7(2), 533–545.

Aziz, N.A.A., Hir, Z.A.M., Khalir, W.K.A.W.M., Al-Amrani, W.A., Hanafiah, M.A.K.M. (2024). Simultaneous adsorption of rare earth metal ions on chitosan-coated fumed silica – Characterization, kinetics, and isotherm studies. Ecological Engineering and Environmental Technology, 25(6), 172–187.

Hussin, S.M., Al-Amrani, W.A., Suah, F.B.M., Harimu, L., Hanafiah, M.A.K.M. (2024). Hydrogen peroxide treated desiccated coconut waste as a biosorbent in malachite green removal from aqueous solutions. Journal of Ecological Engineering, 25(3), 323–333.

Ganiyu, S.A., Suleiman, M.A., Al-Amrani, W.A., Usman, A.K., Onaizi, S.A. (2023). Adsorptive removal of organic pollutants from contaminated waters using zeolitic imidazolate framework composites: A comprehensive and up-to-date review. Separation and Purification Technology, 318, 123765.

 

 

 

 

 

 

 

 

 

 

Yang Han | Condensed Matter Physics | Best Researcher Award

Published on by Physicist Particle

Prof Dr.Yang Han | Condensed Matter Physics | Best Researcher Award

Google Scholar Profile

Orcid Profile

Educational Details:

Yang Han completed her Ph.D. in 2014 from Nanjing University, China. Following her doctorate, she pursued postdoctoral research at RWTH Aachen University, Germany, from 2014 to 2016, where she focused on [research focus, e.g., materials science, mechanical properties, etc.]. She then continued her postdoctoral work at the University of Lorraine, France, from 2016 to 2018, concentrating on [research focus, e.g., thermoelectric properties, molecular dynamics simulations, etc.]. With a strong background in first-principles calculations and numerical simulations, she now serves as a professor and Ph.D. supervisor at Harbin Engineering University.

Research and Innovations:

Yang Han has made significant contributions to the fields of material science and computational modeling, particularly through her innovative research using numerical simulations to understand the mechanical, thermal transport, electronic, magnetic, and thermoelectric properties of advanced materials. Her groundbreaking work has centered on the following key research innovations:

  1. Topological Defects and Heterojunctions in 3D Graphene Structures: Through the support of the National Natural Science Foundation of China (Project No. 12104111), Yang’s research has provided vital insights into the stability and physical properties of three-dimensional graphene structures. By exploring the influence of topological defects and heterojunctions, her research has enhanced the understanding of how these factors contribute to material performance, with potential applications in advanced electronics and nanotechnology.
  2. Natural Gas Hydrate Self-Protection Mechanisms: Under the Basic Research Funds for Central Universities, Yang’s research on natural gas hydrates has delved into the microscopic mechanisms that enable these structures to self-protect, which has crucial implications for energy storage and environmental sustainability. Her molecular dynamics simulations have uncovered novel pathways for optimizing the extraction and stability of natural gas hydrates.
  3. Combustible Ice Formation Mechanism: Another major contribution is her simulation study on the formation mechanism and physical properties of combustible ice. This research, funded by Central Universities’ Free Exploration Support Program, sheds light on the potential of combustible ice as a future energy source by providing a detailed understanding of its formation at the molecular level.
  4. Thermal Conductivity in Carbon Honeycomb Structures: At RWTH Aachen University, Yang’s work using high-performance computing resources has advanced the understanding of how tensile strain impacts the thermal conductivity of carbon-based materials. This research has potential implications for the development of advanced materials with tailored thermal properties for use in electronics and energy systems.
  5. Ab initio Calculations for Predicting Thermal Materials: Yang’s predictive models using ab initio calculations to discover new thermal materials have been pivotal in the design and application of next-generation materials with enhanced heat conduction properties. This project at RWTH Aachen University led to the development of methods that could revolutionize industries ranging from electronics to aerospace by providing better materials for thermal management.

These research innovations demonstrate Yang HAN’s pioneering contributions to material science, leveraging cutting-edge computational techniques to solve complex problems with wide-ranging impacts across multiple scientific and industrial domains.

Research Interest: 

Yang Han research focuses on utilizing numerical simulations to investigate the formation mechanisms and physical properties of natural gas hydrates. Her work delves into understanding how these hydrates form and stabilize at the molecular level, which has significant implications for energy storage and environmental applications. By employing molecular dynamics simulations, she provides crucial insights into the self-preservation behaviors of natural gas hydrates, aiding in their practical extraction and use as alternative energy sources.

Additionally, Yang has made substantial contributions to the study of the mechanical, thermal, electronic, magnetic, and thermoelectric properties of materials. Using a combination of first-principles calculations, molecular dynamics simulations, and analytical models, her research investigates how various materials behave under different physical conditions. This includes exploring their conductivity, structural stability, and magnetic properties, which are essential for designing advanced materials for electronics, thermoelectric devices, and other high-performance applications. Her multi-disciplinary approach is instrumental in advancing the field of material science, offering potential innovations across a wide range of industries.

Contributions: 

Yang Han is a seasoned researcher with over 10 years of experience in the field of numerical simulations, specializing in the mechanical, thermal transport, electronic, magnetic, and thermoelectric properties of materials. Her work primarily involves first-principles calculations and molecular dynamics simulations, which allow her to explore and predict the behavior of materials under various conditions. Her research also extends to water clathrate structures, such as methane hydrate, which have significant implications for energy storage and environmental conservation.

Yang’s academic contributions include 29 SCI-indexed papers, with two of her publications being specially highlighted by the editorial office of Nanotechnology and one chosen as a SCIlight by the Journal of Applied Physics. These recognitions underscore the impact and innovation of her work in material science, particularly in advancing the understanding of material properties for real-world applications in energy and technology.

Top Notable Publications

Rapid growth of CO2 hydrate as a promising way to mitigate the greenhouse effect
Authors: S. Jia, L. Yang, Y. Han, T. Zhang, X. Zhang, P. Gong, S. Du, Y. Chen, J. Ding
Year: 2024
Journal: Materials Today Physics, Article No. 101548
Citations: Not yet available (2024 publication)

Buckling Hydrogenated Biphenylene Network with Tremendous Stretch Extent and Anomalous Thermal Transport Properties
Authors: X. Zhang, M. Poulos, K. Termentzidis, Y. Han, D. Zhao, T. Zhang, X. Liu, S. Jia
Year: 2024
Journal: The Journal of Physical Chemistry C, 128 (13), 5632-5643
Citations: Not yet available (2024 publication)

Ferroelectricity of ice nanotube forests grown in three-dimensional graphene: the electric field effect
Authors: T. Zhang, Y. Han, C. Luo, X. Liu, X. Zhang, Y. Song, Y. T. Chen, S. Du
Year: 2024
Journal: Nanoscale, 16 (3), 1188-1196
Citations: 2

DFT characterization of a new possible two-dimensional BN allotrope with a biphenylene network structure
Authors: Y. Han, T. Hu, X. Liu, S. Jia, H. Liu, J. Hu, G. Zhang, L. Yang, G. Hong, Y. T. Chen
Year: 2023
Journal: Physical Chemistry Chemical Physics, 25 (16), 11613-11619
Citations: 5

Modulating thermal transport in a porous carbon honeycomb using cutting and deformation techniques
Authors: Y. Han, C. Zhao, H. Bai, Y. Li, J. Yang, Y. T. Chen, G. Hong, D. Lacroix, M. Isaiev
Year: 2022
Journal: Physical Chemistry Chemical Physics, 24 (5), 3207-3215
Citations: 1

Stretched three-dimensional white graphene with a tremendous lattice thermal conductivity increase rate
Authors: Y. Han, Y. Liang, X. Liu, S. Jia, C. Zhao, L. Yang, J. Ding, G. Hong
Year: 2022
Journal: RSC Advances, 12 (35), 22581-22589
Citations: 3

Condition monitoring and performance forecasting of wind turbines based on denoising autoencoder and novel convolutional neural networks
Authors: X. Jia, Y. Han, Y. Li, Y. Sang, G. Zhang
Year: 2021
Journal: Energy Reports, 7, 6354-6365
Citations: 37

Prediction of equilibrium conditions for gas hydrates in the organic inhibitor aqueous solutions using a thermodynamic consistency-based model
Authors: S. Li, Y. Li, L. Yang, Y. Han, Z. Jiang
Year: 2021
Journal: Fluid Phase Equilibria, 544, 113118
Citations: 15

Tailoring the activity of NiFe layered double hydroxide with CeCO3OH as highly efficient water oxidation electrocatalyst
Authors: J. Ding, Y. Han, G. Hong
Year: 2021
Journal: International Journal of Hydrogen Energy, 46 (2), 2018-2025
Citations: 14

Rachid Amrani | Physics | Best Researcher Award

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Dr. Rachid Amrani | Physics | Best Researcher Award

Dr. Rachid Amrani, University of Algiers, Algeria

Dr. Rachid Amrani is a faculty member at the University of Algiers, Algeria. He currently holds the position of Lecturer B, a role he has occupied since July 2023, after serving as Lecturer A from February 2018. Before that, he was an Assistant Professor at the University of Algiers from February 2017 to February 2018. Dr. Amrani has a strong research background, having worked as a Research Scientist at the Center of Development of Advanced Technologies (CDTA) in Algiers from March 2016 to January 2017. Earlier in his career, from 2011 to 2013, he served as a Research Assistant to Dr. Yvan Cuminal at the Institut D’électronique Du Sud (IES), CNRS, University of Montpellier, France. His academic and research experience spans various institutions, focusing on advanced technologies and electronics.

PROFILE

Scopus Profile

Educational Details

Dr. Rachid Amrani earned his Ph.D. from the University of Montpellier, France, in December 2013, with a thesis focused on the “Growth and Properties of Hydrogenated Silicon Thin Films Deposited Near the Nanocrystalline Amorphous Transition Region from Argon Diluted Silane Plasma.” This work reflects his deep expertise in the field of material sciences, particularly in the study of thin films. Prior to his doctoral studies, Dr. Amrani completed a Magister degree in Physics with a specialization in material sciences at Université d’Oran Es-Senia, Algeria, from 2001 to 2006. His Magister thesis explored the “Optical Properties of Nanocrystalline Silicon Films Prepared by RF Magnetron Sputtering.” His academic journey began at Université d’Oran Es-Senia, where he earned his undergraduate degree in Physics with a focus on Theoretical Physics between 1992 and 1997. Throughout his career, Dr. Amrani has demonstrated a strong foundation in both theoretical and applied physics, particularly in the study of nanomaterials and thin film technologies.

Research  Interest

Dr. Rachid Amrani’s research interests lie at the intersection of material sciences and nanotechnology, with a particular focus on the growth, deposition, and characterization of thin films. His expertise encompasses a range of advanced techniques, including Plasma Enhanced Chemical Vapor Deposition (PECVD), RF magnetron sputtering, and thermal evaporation. Dr. Amrani has extensive experience in cleanroom processes, such as UV lithography, chemical etching, and reactive ion etching, which are essential for fabricating precise nanostructures. His work in characterizing thin films involves sophisticated methods like ellipsometry, Raman scattering spectroscopy, and Atomic Force Microscopy (AFM), aiming to understand the optical and structural properties of nanocrystalline silicon films and other functional materials. Dr. Amrani’s contributions to the field are reflected in his numerous publications and presentations at international conferences, where he has shared his findings on nanomaterials for energy conversion, storage, and other cutting-edge applications in electronics and photonics.

Honours and Awards

The Journal of Non-Crystalline Solids (Elsevier) and the Journal of Nanotechnology (IOPscience) are both prestigious publications in their respective fields. The Journal of Non-Crystalline Solids focuses on the latest research in amorphous materials, including glasses, polymers, and composites, and is known for publishing cutting-edge studies that advance the understanding of non-crystalline structures. Meanwhile, the Journal of Nanotechnology provides a platform for the dissemination of research on nanoscience and nanotechnology, covering topics ranging from the synthesis and characterization of nanomaterials to their applications in various industries. These journals are widely recognized for their rigorous peer-review process and their role in promoting scientific advancements.

 

Top Notable Publications

Investigation of Structural Heterogeneities in Hydrogenated Nanocrystalline Silicon Thin Films from Argon-Diluted Silane Dusty Plasma PECVD

Authors: R. Amrani, F. Lekoui, F. Pichot, S. Oussalah, Y. Cuminal

Year: 2024

Journal: Vacuum

Volume: 229

Article ID: 113568

Citations: 0

Machine Learning-Based Method for Predicting C–V-T Characteristics and Electrical Parameters of GaAs/AlGaAs Multi-Quantum Wells Schottky Diodes

Authors: E. Garoudja, A. Baouta, A. Derbal, N. Sengouga, M. Henini

Year: 2024

Journal: Physica B: Condensed Matter

Volume: 685

Article ID: 415998

Citations: 0

Structural and Optical Properties of Highly Ag-Doped TiO2 Thin Films Prepared by Flash Thermal Evaporation

Authors: R. Amrani, F. Lekoui, E. Garoudja, S. Oussalah, S. Hassani

Year: 2024

Journal: Physica Scripta

Volume: 99(6)

Article ID: 065914

Citations: 0

Optical Parameters Extraction of Zinc Oxide Thin Films Doped with Manganese Using an Innovative Technique Based on the Dragonfly Algorithm and Their Correlation to the Structural Properties

Authors: K. Settara, F. Lekoui, H. Akkari, S. Oussalah, S. Hassani

Year: 2024

Journal: Journal of Ovonic Research

Volume: 20(3)

Pages: 365–380

Citations: 0

On the Substrate Heating Effects on Structural, Mechanical, and Linear/Non-Linear Optical Properties of Ag–Mn Co-Doped ZnO Thin Films

Authors: F. Lekoui, R. Amrani, S. Hassani, N. Hendaoui, S. Oussalah

Year: 2024

Journal: Optical Materials

Volume: 150

Article ID: 115151

Citations: 4

A B3LYP-D3 Computational Study of Electronic, Structural, and Torsional Dynamic Properties of Mono-Substituted Naphthalenes: The Effect of the Nature and Position of Substituent

Authors: A. Benalia, A. Boukaoud, R. Amrani, A. Krid

Year: 2024

Journal: Journal of Molecular Modeling

Volume: 30(3)

Article ID: 88

Citations: 2

Electrical Parameters Extraction of Diode Using Whale Optimization Algorithm

Authors: E. Garoudja, W. Filali, S. Oussalah, F. Lekoui, R. Amrani

Year: 2024

Conference: 2nd International Conference on Electrical Engineering and Automatic Control (ICEEAC 2024)

Citations: 0

Effect of Ti/TiN Thin Film Geometrical Design on the Response of RTDs

Authors: W. Filali, E. Garoudja, F. Lekoui, S. Oussalah, R. Amrani

Year: 2024

Conference: 2nd International Conference on Electrical Engineering and Automatic Control (ICEEAC 2024)

Citations: 0

Artificial Intelligence Approach to Analyze SIMS Profiles of 11B, 31P, and 75As in n- and p-type Silicon Substrates: Experimental Investigation

Authors: W. Filali, M. Boubaaya, E. Garoudja, S. Oussalah, N. Sengouga

Year: 2023

Journal: Zeitschrift für Naturforschung – Section A Journal of Physical Sciences

Volume: 78(12)

Pages: 1143–1151

Citations: 0

Elaboration and Characterization of Pure ZnO, Ag, and Ag-Fe

Thin Films: Effect of Ag and Ag-Fe Doping on ZnO Physical Properties

Authors: F. Lekoui, S. Hassani, E. Garoudja, O. Sifi, S. Oussalah

Year: 2023

Journal: Revista Mexicana de Fisica

Volume: 69(5)

Article ID: 051005

Citations: 3