Dieudonné NGA ONGODO | High energy physics | Best Researcher Award

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Assist. Prof. Dr. Dieudonné NGA ONGODO | High energy physics | Best Researcher Award

University of Yaoundé I | Cameroon

Dr. Dieudonné NGA ONGODO is a Cameroonian nuclear physicist and Senior Lecturer at the University of Yaoundé I, Faculty of Science, Department of Physics. With over a decade of professional and academic engagement, Dr. Nga Ongodo stands out as a prominent scholar, researcher, and educator, whose work spans nuclear instrumentation, quantum mechanics, and radiation protection. His contributions are firmly rooted in both fundamental physics and applied technologies, making him a vital figure in the African and international scientific communities.

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🎓 Early Academic Pursuits

Dr. Nga Ongodo’s academic foundation was laid with a Baccalaureate in Mathematics and Physics from Lycée d’Obala (2004–2005). He then enrolled at the University of Yaoundé I, completing his Undergraduate studies in Physics (2005–2010), followed by a Master’s Degree in Physics (2011–2013), and later earning a PhD in Nuclear Physics in 2020. His academic trajectory reflects a strong grounding in core and advanced physics disciplines, preparing him for a research-intensive career.

🧑‍🏫 Professional Endeavors

Over more than a decade, Dr. Nga Ongodo has built a distinguished academic career. Since May 2023, he serves as a Senior Lecturer at the University of Yaoundé I, having previously worked as an Assistant Lecturer (2021–2023) and Part-time Teacher (2014–2021) in the same department. Beyond academia, he also lectures at Institut Universitaire la Vision and previously at Institut Universitaire Sup Prépa, further demonstrating his commitment to educational development. Additionally, he plays a pivotal role in public contract regulation as a recognized expert for both the Regulatory Agency of Public Contracts (ARMP) and the Ministry of Public Contracts.

🧪 Contributions and Research Focus

Dr. Nga Ongodo is a dynamic and innovative researcher whose work spans several cutting-edge domains in physics. His expertise includes nuclear instrumentation, FPGA systems, digital signal and pulse processing (DSP, DPP), and radiation dosimetry. He has also contributed to the use of artificial neural networks in analyzing mass spectra, and explores quantum mechanics and SU(3) symmetry through advanced mathematical models. By integrating fractional calculus, Bohr Hamiltonian formalism, and quark models, he provides deep insight into atomic nuclei and particle interactions. His research bridges theory and application, advancing nuclear physics both locally and globally.

🌍 Impact and Influence

Dr. Nga Ongodo’s scientific influence transcends national borders. He has participated in prominent international workshops and seminars, including the African School of Fundamental Physics (Rwanda, 2016) and IAEA-AFRA training sessions across Cameroon and Ethiopia. His groundbreaking publications are featured in top-tier journals such as the European Physical Journal, Modern Physics Letters, and the International Journal of Modern Physics, attesting to the global relevance and visibility of his work.

📈 Academic Citations

With 13 peer-reviewed articles published between 2019 and 2025, Dr. Nga Ongodo’s work has received increasing academic attention. He has co-authored papers on topics including heavy pentaquark masses, Bohr Hamiltonian models, and charmonium resonances using both classical physics and AI techniques. His collaborations with other leading African physicists highlight his role as a central figure in nuclear modeling and quantum structure analysis.

🛠️ Research Skills

Dr. Nga Ongodo’s research expertise is deeply rooted in a diverse and robust technical skill set that empowers both his investigative pursuits and pedagogical approach. He possesses advanced mastery in nuclear and numerical electronics, as well as specialized experience in detector electronics and FPGA (Field Programmable Gate Array) systems, which are vital for real-time data acquisition and signal processing in nuclear experiments. His strong foundation in mathematical modeling, particularly through sophisticated frameworks such as the Nikiforov–Uvarov and Heun methods, allows him to derive analytical solutions for complex quantum systems.

👨‍🏫 Teaching Experience

A passionate and student-centered educator, Dr. Nga Ongodo has taught an extensive range of subjects including Quantum Physics, Electromagnetism, Fluid Mechanics, Thermodynamics, and Radiation Protection. He is well-versed in both theoretical instruction and practical laboratory supervision. His active engagement in pedagogical development seminars, such as the 2022 Competency-Based Teaching Workshop, showcases his dedication to educational innovation and student success.

🏅 Awards and Honors

While formal awards are not explicitly listed, Dr. Nga Ongodo’s appointments and invited participation in elite research events, including those organized by C.E.T.I.C and the IAEA, serve as implicit recognition of his expertise and leadership. His invitation to speak at the 2025 Radiological Protection Workshop in Cameroon underscores his role as a national thought leader in nuclear safety and public health.

🚀 Legacy and Future Contributions

Looking ahead, Dr. Nga Ongodo is set to play an even more significant role in African scientific development, particularly in areas of radiation protection, data-driven nuclear modeling, and sustainable electronics for physics research. His recent work involving Artificial Neural Networks, topological quantum mechanics, and quantum gravity analogues points to a future of interdisciplinary research that bridges AI, quantum systems, and high-energy physics. His legacy will not only be defined by the depth of his research, but also by his transformational impact on Cameroon’s scientific infrastructure, his mentorship of emerging scholars, and his efforts to elevate African research onto the global stage.

Publications Top Notes

Effect of spin-spin interaction and fractional order on heavy pentaquark masses under topological defect space-times

  • Authors: D. Nga Ongodo, A. A. Atangana Likéné, J. M. Ema’a Ema’a, P. Ele Abiama, G. H. Ben-Bolie
    Journal: The European Physical Journal C
    Year: 2025

Hyperbolic tangent form of sextic potential in Bohr Hamiltonian: Analytical approach via extended Nikiforov–Uvarov and Heun equations

  • Authors: D. Nga Ongodo, A. Atangana Likéné, A. Zarma, J. M. Ema’a Ema’a, P. Ele Abiama, G. H. Ben-Bolie
    Journal: International Journal of Modern Physics E
    Year: 2025

Electric quadrupole transitions of triaxial nuclei via the Bohr Hamiltonian within the screened Kratzer–Hellmann potential

  • Authors: D. Nga Ongodo, A. A. Atangana Likéné, A. Zarma, S. Haman Adama, J. M. Ema’a Ema’a, G. H. Ben-Bolie
    Journal: The European Physical Journal Plus
    Year: 2025

Non-compact extra dimensions and flavor dependence of cc̄ and bb̄ mesons masses in a hot QCD medium with lattice, LO and NLO parametrizations of the Debye mass

  • Authors: A. A. Atangana Likéné, L. B. Ungem, D. C. Mbah, D. Nga Ongodo, R. Houzibe, F. B. Djeuyi Ndafeun
    Journal: Modern Physics Letters A
    Year: 2025

Quantum chromodynamics Lagrangian density and SU(3) gauge symmetry: A fractional approach

  • Authors: A. A. Atangana Likéné, D. Nga Ongodo, P. Mah Tsila, A. Atangana, G. H. Ben-Bolie
    Journal: Modern Physics Letters A
    Year: 2024

Vien Vo Van | High-Energy Physics | Best Researcher Award

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Assoc. Prof. Dr. Vien Vo Van | High-Energy Physics | Best Researcher Award

Lecturer at Tay Nguyen University | Vietnam

Dr. Vo Van Vien is a Senior Lecturer at Tay Nguyen University, specializing in Theoretical Physics with an emphasis on Neutrino Physics and Standard Model Extensions. He has an impressive academic background with a Bachelor’s degree from Vinh University, a Master’s from Ha Noi National University of Education, and a Doctorate from the Institute of Physics, Vietnam. His research primarily focuses on high-energy physics and particle phenomenology.

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Early Academic Pursuits 📚

Dr. Vien’s academic journey began with a Bachelor’s degree in Theoretical Physics from Vinh University (1999-2003), followed by a Master’s degree in Theoretical Physics and Mathematical Physics from Ha Noi National University of Education (2006-2008). He then pursued a PhD at the Institute of Physics (2009-2014), where his research deepened his expertise in neutrino physics and discrete symmetry models.

Professional Endeavors 💼

Dr. Vien has been a Senior Lecturer at Tay Nguyen University since 2004, where he continues to teach and mentor the next generation of physicists. His academic position has allowed him to lead several high-impact research projects in particle physics, neutrino mass mixing, and flavor symmetries. Notably, he has been the Principal Investigator for multiple funded projects including studies on lepton and quark mixings in extended Standard Models.

Contributions and Research Focus 🔬

Dr. Vien’s research contributions have been pivotal in extending the Standard Model, especially in neutrino physics, particle mass mixing, and discrete symmetries. His projects have explored a range of models like B-L models, flavor symmetries (e.g., A4, S4, Z4), and the muon anomaly. He has also contributed significantly to understanding neutrino oscillation phenomenology and the implications for dark matter in various extended models.

Impact and Influence 🌍

Dr. Vien’s work has significantly impacted the field of particle physics and neutrino phenomenology. His research on neutrino mass, mixing, and symmetry breaking models has been widely cited and recognized in global academic circles. His collaborations with prominent researchers and his leadership in international research projects underscore his influence in advancing high-energy physics.

📑 Academic Cites

Through his cutting-edge research, Dr. Vien has garnered significant recognition within the scientific community. His publications and citations have had a noticeable impact on the development of high-energy physics and mathematical models used in modern particle physics. His research has been cited by peers, especially those exploring theoretical extensions of the Standard Model and the neutrino sector.

Research Skills 🛠️

Dr. Vien has exceptional skills in Theoretical Physics, particularly in neutrino phenomenology, standard model extensions, and discrete symmetries. His expertise in mathematical models is complemented by proficiency in high-energy particle simulations and advanced theoretical methods, ensuring his research is at the cutting edge of particle physics.

Teaching Experience 🧑‍🏫

As a Senior Lecturer at Tay Nguyen University, Dr. Vien has mentored and inspired numerous students in theoretical physics and mathematical physics. He is known for his innovative teaching methods, combining advanced theoretical concepts with practical examples to help students understand complex phenomena in high-energy physics. His dedication to education ensures that his students are well-prepared to pursue careers in both academia and industry.

Awards and Honors 🏅

Dr. Vien has received several awards and accolades for his academic excellence and research leadership, including:

  • National Foundation for Science and Technology Development grants for his research on Fermion mass and mixing.

  • Tay Nguyen University Principal Investigator awards for his work in extending the Standard Model and exploring new physics.

  • Recognition in peer-reviewed journals for his groundbreaking research in neutrino physics and dark matter.

Legacy and Future Contributions 🌠

Dr. Vo Van Vien’s legacy lies in his substantial contributions to particle physics and his dedication to educating future generations of physicists. His ongoing research promises to further unravel the complexities of neutrino physics, dark matter, and the Standard Model extensions. With a vision of pushing the boundaries of high-energy physics, Dr. Vien is poised to make lasting contributions to theoretical physics that could have a profound impact on how we understand the universe.

Publications Top Notes

Realistic fermion mass and mixing in U(1)L model with A4 flavor symmetry for Majorana neutrino

  • Authors: V.V. Vien, Vo Van
    Journal: Indian Journal of Physics
    Year: 2025

Lepton masses and mixings with broken μ−τ symmetry in a B – L extended 3HDM based on (Z2×Z4)⋊Z2 (I) symmetry

  • Authors: V.V. Vien, Vo Van
    Journal: Chinese Journal of Physics
    Year: 2025

The μ−τ reflection symmetry breaking in a B−L model with T7×Z8×Z2 symmetry

  • Authors: V.V. Vien, Vo Van
    Journal: Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics
    Year: 2024

A4×Z2×Z4 flavor symmetry model for neutrino oscillation phenomenology

  • Authors: V.V. Vien, Vo Van
    Journal: Revista Mexicana de Fisica
    Year: 2024

Fermion masses and mixings and g − 2 muon anomaly in a Q6 flavored 2HDM

  • Authors: V.V. Vien, Vo Van, H.N. Long, A.E. Cárcamo Hernández, J. Marchant González
    Journal: Nuclear Physics, Section B
    Year: 2024

 

 

 

Albert Munyeshyaka | High-Energy Astrophysics | Best Researcher Award

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Dr. Albert Munyeshyaka | High-Energy Astrophysics | Best Researcher Award

University of Rwanda-College of Science and Technology | Rwanda

Albert Munyeshyaka is an exceptional researcher and educator in the field of Astrophysics and Cosmology. Currently pursuing his PhD at the Mbarara University of Science and Technology in Uganda, he is deeply focused on exploring advanced cosmological phenomena, particularly within the context of modified Gauss-Bonnet gravity. Albert’s academic journey spans across Rwanda, Uganda, and Poland, with numerous awards and scholarships showcasing his dedication to advancing the scientific community. His work on cosmic acceleration, large-scale structure formation, and the Hubble tension has earned him recognition among global astrophysics networks.

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Early Academic Pursuits 📚

Albert’s academic journey began at Kinoni Primary School in Burera District and continued through Ecole Secondaire de Kirambo and Ecole des Science de Gisenyi, where he excelled in Physics, Chemistry, and Mathematics. This strong foundation led him to pursue a Bachelor’s degree in Physics at the University of Rwanda-College of Science and Technology, where he graduated with honors. This solid base in fundamental physics served as a stepping stone toward his later graduate and postgraduate research in Astrophysics at Mbarara University of Science and Technology, Uganda.

Professional Endeavors 💼

Albert’s professional experience includes a position as an Assistant Lecturer at the University of Rwanda, where he teaches undergraduate courses like Electricity and Magnetism for Geotechnical Engineering and Surveying and Geomatics Engineering students. He is also a Research Collaborator on multiple projects, contributing his expertise to projects such as Grant DVC-AAR506/2022. Albert’s collaborative efforts span across multiple esteemed institutions, demonstrating his ability to work effectively in interdisciplinary settings.

Contributions and Research Focus 🧑‍🔬

Albert’s research interests primarily focus on Astrophysics and Cosmology, with particular attention to the large-scale structure formation of the universe and the issues surrounding modified gravity theories. His doctoral research on modified Gauss-Bonnet gravity investigates the intricacies of cosmic acceleration and dark energy, while his work on Chaplygin gas cosmology and perturbation theory explores the fundamental forces that govern the universe. Albert’s contributions to Hubble tension and Sigma 8 are pushing the frontiers of cosmological theory, aiming to solve some of the most pressing challenges in modern physics.

Impact and Influence 🌍

Albert’s influence extends well beyond academia. Through his numerous publications in top-tier journals like the International Journal of Modern Physics and the European Physical Journal C, he is contributing to the understanding of cosmological phenomena and the fundamental laws of the universe. His active participation in international conferences such as the 5th Cosmology School in Krakow, Poland, and his involvement in international collaborations have allowed him to share knowledge and learn from leading figures in the field. Albert’s contributions are shaping future directions in cosmological research.

Research Skills and Expertise 🖥️

Albert’s computational and data analysis skills are one of his greatest assets. He is proficient in using advanced tools such as Maple, Pyplot, LATEX, and Jupyter Notebook for typesetting and data visualization. Additionally, his experience with Machine Learning, MCMC simulations, and MATLAB for data analysis enhances his ability to work on complex astrophysical simulations and data reduction. His work with TOPCAT and IRAF also exemplifies his technical abilities in handling astronomical data.

Teaching Experience 👨‍🏫

As an Assistant Lecturer at the University of Rwanda, Albert has demonstrated a strong commitment to teaching and mentoring the next generation of scientists. He has taught subjects such as Electricity and Magnetism, and his approach to teaching integrates theoretical understanding with practical application. His experience with Geotechnical Engineering and Surveying and Geomatics Engineering students highlights his ability to make complex subjects accessible and engaging.

Awards and Honors 🏆

Albert’s academic journey has been marked by several prestigious awards, including:

  • SIDA Scholarship (Swedish International Development Agency) for PhD studies at Mbarara University of Science and Technology.

  • Grant to attend the 5th Cosmology School in Krakow, Poland.

  • PhD Graduation scheduled for October 2024, with his Viva-Voce defense in May 2024.

  • EAARN Scholarship to pursue a Master’s degree in Astrophysics.

These accolades highlight Albert’s excellence and dedication to his field.

Legacy and Future Contributions 🌠

Albert Munyeshyaka’s career is still in its early stages, yet his research has already made a significant mark in the world of astrophysics. With his continued work in modified gravity theories and cosmological models, Albert is poised to make even more influential contributions in the coming years. His active participation in global scientific networks and his ongoing research projects, such as bulk viscous modified Chaplygin gas and matter power spectrum in modified Gauss-Bonnet gravity, will continue to shape our understanding of the universe and its fundamental laws. As he nears the completion of his PhD, his legacy as a leading researcher in cosmology is already being cemented, with expectations for future breakthroughs in both theoretical and observational physics.

Publications Top Notes

Perturbations with bulk viscosity in modified Chaplygin gas cosmology

  • Authors: Albert Munyeshyaka, Praveen Kumar Dhankar, Joseph Ntahompagaze
    Journal: International Journal of Geometric Methods in Modern Physics
    Year: 2025

On covariant perturbations with scalar field in modified Gauss–Bonnet gravity

  • Authors: Albert Munyeshyaka, Joseph Ntahompagaze, Tom Mutabazi, Manasse Mbonye
    Journal: The European Physical Journal C
    Year: 2024

On Chaplygin models in f(G) gravity

  • Authors: Twagirayezu, Fidele; Ayirwanda, Abraham; Munyeshyaka, Albert; Mukeshimana, Solange; Ntahompagaze, Joseph; Uwimbabazi, Leon Fidele Ruganzu
    Journal: International Journal of Modern Physics D
    Year: 2023

On covariant perturbations with scalar field in modified Gauss-Bonnet gravity

  • Authors: Albert Munyeshyaka, Joseph Ntahompagaze, Tom Mutabazi, Manasse R. Mbonye
    Journal: arXiv
    Year: 2023

On 1 + 3 covariant perturbations of the quasi-Newtonian spacetime in modified Gauss–Bonnet gravity

  • Authors: Albert Munyeshyaka, Joseph Ntahompagaze, Tom Mutabazi, Manasse R. Mbonye
    Journal: International Journal of Modern Physics D
    Year: 2023

 

César Lenzi | Dark Matter Studies | High Energy Physics Excellence Award

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Dr. César Lenzi | Dark Matter Studies | High Energy Physics Excellence Award

Professor at ITA | Brazil

Dr. César Henrique Lenzi is a distinguished Research Fellow at CNPq (Level 2) and a renowned expert in the fields of Astrophysics, Gravitational Waves, and Nuclear Physics. With an extensive academic and professional career, Dr. Lenzi’s work spans both theoretical and applied physics, making significant contributions to understanding complex phenomena such as compact star matter, gravitational waves, and the interstellar medium. He is currently based at the Instituto Tecnológico de Aeronáutica (ITA) in Brazil.

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Early Academic Pursuits 🎓

Dr. Lenzi began his academic journey with a Bachelor’s degree in Physics from Universidade Estadual Paulista Júlio de Mesquita Filho (2003). This foundation was followed by a Master’s degree (2006) and a Ph.D. in Physics (2010) from the Instituto Tecnológico de Aeronáutica (ITA), where he focused on Nuclear Physics and Astrophysics. His early research and academic training laid the groundwork for his future contributions to high-energy physics and astrophysics.

Professional Endeavors 💼

Throughout his career, Dr. Lenzi has held key positions at prestigious institutions, including Instituto Tecnológico de Aeronáutica (ITA) and Universidade Federal do ABC (UFABC), Brazil. He has been involved in research, teaching, and administrative roles since 2017 at ITA. His professional experience extends beyond teaching, as he has led and contributed to various research projects and academic commissions, focusing on mechanical waves, general relativity, and cosmology. At Universidade de Coimbra, Portugal, Dr. Lenzi also collaborated on important research projects in general relativity and cosmology.

Contributions and Research Focus 🔬

Dr. Lenzi’s research is centered on the study of gravitational waves, compact stars, and the interstellar medium. His work includes gravitational wave asteroseismology, hybrid stars, and dark matter effects on stellar properties. He is currently involved in the project “Holographic Models for Compact Star Matter” (2023-2025), which explores cutting-edge topics in astrophysics and nuclear physics. His notable research projects include strongly interacting matter studies (2020-2023) and dark matter effects on hybrid star properties, contributing to important advancements in high-energy physics.

Impact and Influence 🌍

Dr. Lenzi’s scientific influence is evident from his multiple publications in prominent journals such as Physical Review D, European Physical Journal C, and Journal of High Energy Astrophysics. His articles have been cited extensively, particularly in the study of gravitational waves and compact star properties. Dr. Lenzi’s research has influenced the understanding of dark matter, neutron stars, and quark stars, expanding the field’s knowledge base. He has also made substantial contributions to the study of gravitational wave production and the temperature influences on binary white dwarf systems.

Academic Citations 📑

Lenzi’s research has been widely cited across the global scientific community. He has contributed to numerous papers and studies in Astrophysics and Nuclear Physics, influencing ongoing projects in general relativity and dark matter. Some of his notable citations include studies in gravitational wave physics, neutron star dynamics, and phase transitions in stellar matter. His work in scientific publishing and being a referee for journals like EPL and the Brazilian Journal of Physics highlights his ongoing involvement in scientific discourse.

Research Skills and Expertise 🔧

Lenzi possesses advanced research skills in a variety of theoretical and computational techniques, including Bayesian analysis, Nambu-Jona-Lasinio models, and holographic approaches to stellar physics. His expertise extends to mathematical modeling and data analysis in gravitational wave astronomy and quantum field theory. This breadth of skills makes him a leading researcher in fields like stellar modeling, nuclear astrophysics, and high-energy particle physics.

Teaching Experience 📚

Dr. Lenzi is an experienced educator with a passion for teaching complex physics concepts. He has taught a variety of subjects such as Cosmology, General Relativity, Mechanics, and Advanced Physics Labs. His teaching experience spans both undergraduate and postgraduate levels at prestigious institutions like Instituto Tecnológico de Aeronáutica (ITA) and Universidade Tecnológica Federal do Paraná (UTFPR). In addition to classroom instruction, he has been involved in developing seminars and physics education programs, further contributing to the dissemination of scientific knowledge.

Awards and Honors 🏆

Dr. Lenzi’s work has been recognized by multiple institutions and awards. Notably, he received an Honorable Mention at the II ENCONTRO DE VERÃO DE FÍSICA DO ITA (2007) for his outstanding work in the PhD category. His contributions to Physics and Astrophysics have earned him prestigious scholarships from CAPES and CNPq, further solidifying his position as a leading researcher in his field.

Legacy and Future Contributions 🔮

Dr. Lenzi’s legacy lies in his continued commitment to the advancement of high-energy physics, particularly in the understanding of gravitational waves and compact stellar objects. His current and future work in holographic models for compact star matter and dark matter effects on stellar configurations will likely continue to shape the direction of research in astrophysics and nuclear physics. As an educator and researcher, his legacy will inspire future generations of physicists and contribute to the development of advanced physics models and scientific collaboration worldwide.

Publications Top Notes

Gravitational wave asteroseismology of neutron stars with unified EOS: On the role of high-order nuclear empirical parameters

  • Authors: Guilherme Grams, César V. Flores, César H. Lenzi
    Journal: Physical Review D
    Year: 2025

Bayesian analysis of a relativistic hadronic model constrained by recent astrophysical observations

  • Authors: Bruno A de Moura Soares, César H Lenzi, Odilon Lourenço, Mariana Dutra
    Journal: Monthly Notices of the Royal Astronomical Society
    Year: 2023

Fluid pulsation modes and tidal deformability of anisotropic strange stars in light of the GW170817 event

  • Authors: José D. V. Arbañil, César V. Flores, César H. Lenzi, Juan M. Z. Pretel
    Journal: Physical Review D
    Year: 2023

Hybrid stars with reactive interfaces: Analysis within the Nambu–Jona-Lasinio model

  • Authors: C. H. Lenzi, G. Lugones, C. Vasquez
    Journal: Physical Review D
    Year: 2023

Dark matter effects on hybrid star properties

  • Authors: C. H. Lenzi, M. Dutra, O. Lourenço, L. L. Lopes, D. P. Menezes
    Journal: The European Physical Journal C
    Year: 2023

 

Shewa Getachew | High energy physics | Editorial Board Member

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Mr. Shewa Getachew | High energy physics | Editorial Board Member

Lecturer at Wolkite University | Ethiopia

Shewa Getachew Mamo is a dedicated Physics Lecturer and researcher with a specialized focus on optical properties of nanocomposites, material science, refractive index, and group velocity. Passionate about advancing scientific knowledge, he is committed to both academic excellence and innovative research in the realm of condensed matter physics. His expertise extends to investigating local field enhancements, optical properties of nanostructures, and exploring nanoparticle-based materials and geometries.

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Early Academic Pursuits 🎓

Shewa’s academic journey began at Wolkite University, where he earned his Bachelor’s degree in Physics (2016-2019) and later pursued a Master’s degree in Condensed Matter Physics (2022-2023). Throughout his education, he developed a strong foundation in experimental and theoretical physics, which propelled him into a career of teaching and research in the field.

Professional Endeavors 💼

Currently, Shewa serves as a Physics Teacher at Wolkite University (since December 2023). In this role, he is responsible for preparing and presenting undergraduate and sometimes postgraduate courses in various areas of physics, including mechanics, electromagnetism, thermodynamics, quantum mechanics, and material science. He plays a vital role in designing curricula, developing lesson plans, and selecting relevant textbooks to ensure effective learning outcomes. His academic influence extends to advising students on academic matters and guiding them through research projects.

Contributions and Research Focus 🔬

Shewa’s research focus is primarily on the optical properties of core-shell spherical nanocomposites and local field enhancements. His research aims to explore the interaction between optical fields and nanocomposites, as well as investigating the influence of depolarization on the local field enhancement factor in passive and active composites with pure metal spheroidal nanoinclusions. One of his notable research areas includes optical bistability in nanoparticle composites and the role of tunable dielectric cores in cylindrical core-shell nanocomposites.

Impact and Influence 🌍

Shewa’s research has led to significant contributions to the field of material science and nanotechnology, specifically in understanding the optical properties of nanostructured materials. His findings have been widely discussed in the scientific community, with numerous publications in prominent journals. He is committed to staying updated with the latest advancements in condensed matter physics and nanotechnology, consistently striving to push the boundaries of existing scientific knowledge.

Academic Cites 📚

Shewa’s work has been widely cited, with his contributions being recognized across several prestigious journals. His publications include studies such as:

  • Tsegaye, A., & Getachew, S. (2024). “Investigation Optical Properties of ZnTe@Ag Core-Shell Spherical Nanocomposites Within Varies Dielectric Host Matrices”. Advances in Materials, 13(4), 80-91.
  • Getachew, S. (2024). “Effect of Tunable Dielectric Core on Optical Bistability in Cylindrical Core-Shell Nanocomposites”. Advances in Condensed Matter Physics, 2024(1), 9911970.
  • Getachew, S. (2024). “Investigation of Refractive Index and Group Velocity Metal Coated Dielectric Spherical Nanocomposites”. Iranian Journal of Physics Research, 24(3), 75-87.

His academic citations are a testament to his research impact and scientific contributions.

Research Skills 🔍

Shewa possesses advanced knowledge in condensed matter physics, with strong analytical and problem-solving skills. He is proficient in a range of experimental and theoretical physics techniques. His technical expertise includes programs such as Matlab, Word, Excel, PowerPoint, OpenOffice, and Latex, and he is skilled in computer languages like Python, Fortran, and Gnuplot. He also has experience with Unix systems and software like xmgrace, showcasing his comprehensive research toolset.

Teaching Experience 📘

Shewa’s teaching experience is extensive, having taught various physics courses at the undergraduate and postgraduate levels. He designs engaging lesson plans and works closely with students to help them grasp key concepts in physics. By preparing and grading exams, assignments, and laboratory reports, he ensures students receive constructive feedback for their academic growth. His role as a mentor goes beyond the classroom, advising students on their academic and career paths and supervising their research projects.

Legacy and Future Contributions 🌱

Shewa is committed to leaving a lasting legacy in the fields of nanotechnology, material science, and condensed matter physics. His ongoing research will likely continue to make valuable contributions to the understanding of optical properties and nanocomposite materials. Looking ahead, Shewa is dedicated to mentoring the next generation of scientists and physicists, sharing his knowledge and advancing the boundaries of nanophysics and material science research. Through continuous publication and collaboration, his work is set to influence the scientific community for years to come.

Publications Top Notes

Effect of Tunable Dielectric Function of the Core on Optical Bistability in Small Spherical Metal-Dielectric Composite

  • Authors: Hawi Aboma, Shewa Getachew, Sisay Shewamare
    Journal: Ethiopian Journal of Applied Sciences
    Year: 2025

Investigation Optical Properties of ZnTe@Ag Core-Shell Spherical Nanocomposites Within Varies Dielectric Host Matrices

  • Authors: Tsegaye Atnaf, Shewa Getachew
    Journal: Advances in Materials
    Year: 2024

Investigating the Optical Bistability of Pure Spheroidal Nanoinclusions in Passive and Active Host Matrices

  • Authors: Shewa Getachew, Girma Berga
    Journal: Canadian Journal of Physics
    Year: 2024

Investigation of Refractive Index and Group Velocity Metal Coated Dielectric Spherical Nanocomposites Within Passive and Active Dielectric Cores

  • Authors: Shewa Getachew
    Journal: Iranian Journal of Physics Research (IJPR)
    Year: 2024

Effect of Tunable Dielectric Core on Optical Bistability in Cylindrical Core–Shell Nanocomposites

  • Authors: Shewa Getachew, Junjie Li
    Journal: Advances in Condensed Matter Physics
    Year: 2024

 

 

Shun-Jia Huang | Gravitational Waves | Best Researcher Award

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Dr. Shun-Jia Huang | Gravitational Waves | Best Researcher Award

Postdoctor at Sun Yat-sen University | China

Shun-Jia Huang is an accomplished PhD candidate in Theoretical Physics at Sun Yat-sen University, China, with an academic background that includes a Master’s degree and Bachelor’s degree from the same institution. His research focuses primarily on gravitational waves (GW), multi-messenger astronomy, and their applications in cosmology. Currently, he is a postdoctoral researcher at the same university, continuing his cutting-edge work in these fields.

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Early Academic Pursuits 🎓

Shun-Jia’s academic journey began at Shaoguan University, where he earned his Bachelor’s degree in Physics. He then pursued advanced studies at Sun Yat-sen University, completing his Master’s in Theoretical Physics and currently working towards a PhD. His dedication and aptitude for theoretical physics were evident early on, with his research interests beginning to center on gravitational wave detection and the exciting possibilities of multi-messenger astronomy.

Professional Endeavors 💼

Shun-Jia Huang’s professional trajectory includes significant roles, such as a postdoctoral researcher and a teaching assistant at Sun Yat-sen University. Additionally, he has gained experience as a part-time physics teacher with New Oriental Education & Technology Group, Guangzhou, where he imparted fundamental knowledge in physics. These roles showcase his versatility as both a researcher and an educator, actively contributing to the academic community.

Contributions and Research Focus 🔭

Shun-Jia’s research revolves around gravitational waves (GW) and multi-messenger detection, focusing on the intersections of astronomy, cosmology, and fundamental physics. His work involves gravitational lensing and its application in measuring cosmological parameters. He is particularly interested in double white dwarf binaries, supermassive black hole binaries, and the use of gravitational wave signals to explore the universe. His contributions to TianQin Observatory and research on strongly lensed gravitational wave signals are notable highlights of his career.

Impact and Influence 🌍

Shun-Jia’s research has made a significant impact on the astronomy and cosmology community, contributing to advancements in the detection of gravitational waves and the study of cosmological parameters through multi-messenger astronomy. His work has been widely recognized, and his publications in high-impact journals like Physical Review D and The Astrophysical Journal Supplement Series have paved the way for further studies in gravitational wave astronomy.

Academic Citations 📑

Shun-Jia’s research has garnered 601 citations and an h-index of 9. His work is highly regarded within the field, as evidenced by the impact of his papers, such as those on testing cosmic distance relations and the TianQin mission. His publications in leading astrophysical journals have ensured that his contributions reach a global audience, influencing both current research and future exploration in gravitational wave physics.

Research Skills 🧑‍💻

Shun-Jia possesses strong computational and analytical skills, utilizing tools such as Python, LATEX, Bash, and git for his research. His proficiency in programming languages like C and Fortran, as well as his intermediate knowledge of Mathematica and vim, allows him to perform advanced simulations and data analysis, which are crucial for his research on gravitational waves and multi-messenger detection.

Teaching Experience 👨‍🏫

In addition to his research, Shun-Jia has been an active teaching assistant at Sun Yat-sen University, mentoring students and sharing his knowledge of theoretical physics. His teaching role demonstrates his commitment to education and his ability to communicate complex scientific concepts to students. He also taught physics as a part-time instructor with New Oriental Education & Technology Group, gaining valuable experience in science communication and student engagement.

Awards and Honors 🏆

While his awards and honors are not explicitly listed, his significant contributions to gravitational wave research and multi-messenger astronomy place him as a candidate for recognition and accolades in the field of theoretical physics. The increasing number of citations to his work and his engagement with major conferences suggest that he is on the path to receiving more formal recognition for his contributions to the scientific community.

Legacy and Future Contributions 🔮

Shun-Jia Huang is at the forefront of gravitational wave astronomy and cosmology, and his future contributions promise to further expand our understanding of the universe. His work on gravitational wave lensing, the TianQin mission, and cosmological measurements positions him as a key figure in the next generation of astrophysicists. With his continued focus on multi-messenger detection, his legacy will likely involve groundbreaking discoveries that shape the future of space science and astronomy.

Publications Top Notes

An opacity-free method of testing the cosmic distance duality relation using strongly lensed gravitational wave signals

  • Authors: Shun-Jia Huang, En-Kun Li, Jian-dong Zhang, Xian Chen, Zucheng Gao, Xin-yi Lin, Yi-Ming Hu
    Journal: Physics of the Dark Universe
    Year: 2025

Detection of astrophysical gravitational wave sources by TianQin and LISA

  • Authors: Alejandro Torres-Orjuela, Shun-Jia Huang, Zheng-Cheng Liang, Shuai Liu, Hai-Tian Wang, Chang-Qing Ye, Yi-Ming Hu, Jianwei Mei
    Journal: Sci. China Phys. Mech. Astron.
    Year: 2024

Detecting strong gravitational lensing of gravitational waves with TianQin

  • Authors: Xinyi Lin, Jian-dong Zhang, Liang Dai, Shun-Jia Huang, Jianwei Mei
    Journal: Phys. Rev. D
    Year: 2023

Measuring the Hubble constant using strongly lensed gravitational wave signals

  • Authors: Shun-Jia Huang, Yi-Ming Hu, Xian Chen, Jian-dong Zhang, En-Kun Li, Zucheng Gao, Xin-Yi Lin
    Journal: JCAP
    Year: 2023

Constraining the extra polarization modes of gravitational waves with double white dwarfs

  • Authors: Ning Xie, Jian-dong Zhang, Shun-Jia Huang, Yi-Ming Hu, Jianwei Mei
    Journal: Phys. Rev. D
    Year: 2022

 

 

Muhammad Danish Sultan | High energy physics | Best Researcher Award

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Mr. Muhammad Danish Sultan | High energy physics | Best Researcher Award

Visiting Lecturer at Emerson University | Pakistan

Muhammad Danish Sultan is an emerging researcher and educator specializing in the field of Black Hole Physics. He is currently a Visiting Lecturer at Emerson University in Multan, Pakistan, where he shares his knowledge and expertise with aspiring students. His academic journey has been marked by deep theoretical exploration into the nature of black holes, particularly focusing on their thermodynamics, Hawking evaporation, acceleration processes, and shadow images. Sultan’s research is known for its innovative approach, leading to numerous published works in high-impact journals.

👨‍🎓Profile

Scopus

Early Academic Pursuits 🎓

Sultan’s academic foundation was laid during his BS in Physics at Govt. College University Faisalabad, where he developed a strong understanding of core physics principles. He further enhanced his academic depth with a Master’s degree (MS) in Black Holes Physics from Riphah International University, where his specialization included complex phenomena like Hawking radiation and black hole accretion. Sultan also pursued an MA in Education to bridge his passion for science with teaching methodology, solidifying his commitment to both research and education.

Professional Endeavors 📚

Sultan’s professional trajectory reflects a profound commitment to education and research. He began his teaching career as a Physics Teacher at Ravi College in Mian Channu (2021-2022), where he imparted knowledge on fundamental physics concepts. In his current role as a Visiting Lecturer at Emerson University Multan, he is recognized for his ability to make complex topics in theoretical physics accessible and engaging for students. His focus on innovative teaching methods enhances students’ learning experiences, positioning him as a dynamic figure in the academic community.

Contributions and Research Focus 🔬

Sultan’s research contributions in black hole physics have been extensive and groundbreaking. He has co-authored numerous papers on subjects like the Hawking evaporation of black holes, thermodynamics of black holes, and greybody factors. His research on Kerr-Newman-Kasuya black holes and Charged Ads black holes has been instrumental in broadening the understanding of phase transitions, stability analysis, and the impact of modified gravity on black holes. His focus is primarily on understanding advanced theoretical phenomena in black hole physics, contributing valuable insights into how gravity theories affect accretion disks, quasinormal modes, and shadow images of black holes.

Impact and Influence 🌍

Sultan’s research publications have made a significant impact in the field of astrophysics, especially within high-energy astrophysics. With contributions to journals such as Physica Scripta, Nuclear Physics B, and High Energy Astrophysics, his work is cited by many in the theoretical physics community. Sultan’s studies on the optical aspects of black holes, along with the dynamic stability of charged dilatonic black holes, reflect his deep understanding and innovative approach to black hole dynamics. His work influences not only theoretical physics but also astronomical observations in terms of black hole imaging and radiation.

Academic Citations 📑

Sultan’s work has already garnered attention in the scientific community, with multiple papers published in high-impact journals and several others under submission. His publications on topics like Hawking Evaporation, Accretion Disk Dynamics, and Greybody Factors are frequently cited by researchers in the fields of general relativity and cosmology. His comprehensive studies on the thermodynamic geometry of black holes have become an essential reference for anyone working in the domain of astrophysical research.

Research Skills 🧑‍🔬

Sultan is well-versed in utilizing advanced computational tools for his research, including Mathematica, Maple, and WinEdt. His proficiency in these tools has enabled him to perform complex calculations, simulations, and data analysis, which are crucial for modeling phenomena such as black hole accretion and shadow images. His ability to engage with complex theories and translate them into computational results further strengthens his research.

Teaching Experience 📚

In addition to his research, Sultan’s teaching career has played a vital role in shaping his professional journey. He has taught undergraduate and postgraduate students at Emerson University and Ravi College, focusing on general physics, theoretical physics, and astrophysics. His teaching philosophy is centered on promoting active learning and fostering critical thinking in students. Sultan’s commitment to pedagogical development is evident through his participation in various workshops, such as Classroom Management and Computational Tools in Research.

Awards and Honors 🏅

Throughout his academic career, Sultan has been recognized for his outstanding contributions to both teaching and research. He has received Certificates of Appreciation for his participation in several prestigious workshops, including those on Nanotechnology Innovations, Classroom Management, and Computational Research Tools. These accolades reflect his dedication to enhancing both his research skills and his teaching effectiveness.

Legacy and Future Contributions 🔮

Muhammad Danish Sultan’s career is marked by his growing influence in the realm of black hole physics and astrophysics. With a solid foundation in both theoretical research and education, Sultan is poised to leave a lasting legacy in the scientific community. His future contributions are likely to push the boundaries of gravitational physics, and his work in emerging gravity theories could lead to new theoretical models and observational technologies in astrophysics. His dedication to research, teaching, and professional development ensures that he will continue to have a significant impact in the academic world, influencing both future researchers and students.

Publications Top Notes

Analysis of Hawking evaporation, shadows, and thermodynamic geometry of black holes within the Einstein SU(N) non-linear sigma model

  • Authors: Shahid Chaudhary, Muhammad Danish Sultan, Asifa Ashraf, Awatef Abidi, Ali M. Mubaraki
    Journal: Journal of High Energy Astrophysics
    Year: 2025

Effect of Modified Gravity in the Hawking Evaporation of Charged Ads Black Hole

  • Authors: Shahid Chaudhary, Muhammad Danish Sultan et al.
    Journal: Physica Scripta
    Year: 2023

Images and stability of black hole with cloud of strings and quintessence in EGUP framework

  • Authors: Shahid Chaudhary, Muhammad Danish Sultan et al.
    Journal: Nuclear Physics B
    Year: 2024

Optical Aspects of Born-Infeld BTZ Black Holes in Massive Gravity

  • Authors: Muhammad Danish Sultan, Shahid Chaudhary et al.
    Journal: Physica Scripta
    Year: 2024

Greybody Factor and Accretion Disk Around Regular Black Holes in Verlinde Emergent Gravity

  • Authors: Shahid Chaudhary, Muhammad Danish Sultan et al.
    Journal: High Energy Astrophysics
    Year: 2025

Hector Perez de-Tejada | Particle physics and cosmology | Best Faculty Award

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Prof. Hector Perez de-Tejada | Particle physics and cosmology | Best Faculty Award

National University of Mexico | Mexico

Dr. Héctor Pérez-de-Tejada is an esteemed researcher and professor at the Institute of Geophysics, UNAM, Mexico. He holds a Doctorate in Space Sciences from the University of Colorado, Boulder and has been a faculty member at UNAM since 1970. As the first Ph.D. in Space Physics at UNAM, he has played a pioneering role in the development of space science research in Mexico.

👨‍🎓Profile

Scopus

Early Academic Pursuits 🎓

Dr. Pérez-de-Tejada’s academic journey began at the National University of Mexico (UNAM), where he completed his undergraduate studies at the School of Sciences. He furthered his education at the University of Colorado, where he obtained his Doctorate in Space Sciences. His early academic experiences set the foundation for his lifelong passion for planetary science and space physics, leading him to specialize in the interaction of the solar wind with planetary ionospheres.

Professional Endeavors 🌍

Since 1970, Dr. Pérez-de-Tejada has dedicated his career to research and education. He became a faculty member in Space Sciences at UNAM and also contributed to the University of Baja California in Ensenada. Throughout his career, he has been involved in cutting-edge space missions, including working as a guest investigator on NASA’s Pioneer Venus Orbiter and contributing to data analysis from the Venus Express spacecraft of the European Space Agency (ESA). His pioneering work in solar wind momentum transport and plasma dynamics has greatly advanced our understanding of planetary atmospheres.

Contributions and Research Focus 🔬

Dr. Pérez-de-Tejada has made over 100 significant publications, focusing on the interaction of solar wind with planetary ionospheres such as those of Venus, Mars, and comets. His work on the viscous transport of solar wind momentum in the Venus ionosheath and the discovery of plasma vortices in the Venus wake, over 40 years ago, have made a lasting impact in the field. He also proposed the theory of plasma channels over the magnetic poles of Venus, driven by the fluid dynamic Magnus force.

Impact and Influence 🌟

Dr. Pérez-de-Tejada’s work has had a transformative impact on the field of space science, particularly in the study of planetary ionospheres and solar wind interactions. His discoveries, such as the existence of plasma vortices and ionospheric holes on Venus, have influenced both contemporary studies and space mission design. His involvement in NASA and ESA missions reflects the international recognition of his work. He has also been a strong advocate for the development of space science infrastructure in Mexico, enhancing its visibility and global standing.

Academic Cites 📚

Dr. Pérez-de-Tejada’s publications have been widely cited in the field of space physics, with references in over 100 academic articles that build upon his theories of plasma dynamics and solar wind interaction. His work remains foundational for ongoing research on planetary atmospheres, especially with regard to Venus and Mars.

Research Skills 🧑‍🔬

Dr. Pérez-de-Tejada’s research is marked by advanced data analysis and theoretical modeling in space sciences. His extensive experience in using data from spacecraft missions such as the Pioneer Venus Orbiter and Venus Express has refined his ability to interpret complex plasma data. His research into the fluid dynamics and Magnus forces on planetary ionospheres demonstrates a deep understanding of both theoretical physics and practical spacecraft data collection.

Teaching Experience 🏫

A dedicated educator, Dr. Pérez-de-Tejada has mentored 15 students in undergraduate, Master’s, and PhD programs at UNAM and the University of Baja California. His students have gone on to make their own contributions in space science, a testament to his ability to inspire and guide the next generation of scientists and researchers. He has also taught and published two academic books, providing invaluable resources for those studying space sciences.

Awards and Honors 🏅

Dr. Pérez-de-Tejada has received numerous accolades in recognition of his work, including a celebration of his 50th anniversary of academic activities at UNAM and being distinguished at the National Workshop in Astrophysics in Mexico, which was named in his honor. His longstanding commitment to space science has been acknowledged both nationally and internationally, further solidifying his status as a leader in the field.

Legacy and Future Contributions 🌱

Dr. Pérez-de-Tejada’s legacy extends beyond his academic publications and mentorship. He was instrumental in the creation of the first ionospheric sounder in Mexico and the acquisition of a planetarium at UNAM. These contributions have helped raise the profile of space sciences in Mexico and contributed to public engagement with astronomy. His future work will likely continue to inspire young scientists while enhancing our understanding of planetary atmospheres and the broader universe.

Publications Top Notes

Wave-Particle Interactions in Astrophysical Plasmas

  • Authors: H. Pérez-De-Tejada, Héctor
    Journal: Galaxies
    Year: 2024

Measurement of plasma channels in the Venus wake

  • Authors: H. Pérez-De-Tejada, Héctor; R.N. Lundin, Rickard N.; Y. Futaana, Yoshifumi; T. Zhang, Tielong
    Journal: Icarus
    Year: 2019

Pluto’s plasma wake oriented away from the ecliptic plane

  • Authors: H. Pérez-De-Tejada, Héctor; H.J. Durand-Manterola, Héctor Javier; M. Reyes-Ruiz, Mauricio; R.N. Lundin, Rickard N.
    Journal: Icarus
    Year: 2015

A large-scale flow vortex in the Venus plasma tail and its fluid dynamic interpretation

  • Authors: R.N. Lundin, Rickard N.; S.V. Barabash, Stanislav V.; Y. Futaana, Yoshifumi; H. Pérez-De-Tejada, Héctor; J.A. Sauvaud, Jean André
    Journal: Geophysical Research Letters
    Year: 2013

Solar wind-driven plasma fluxes from the Venus ionosphere

  • Authors: H. Pérez-De-Tejada, Héctor; R.N. Lundin, Rickard N.; H.J. Durand-Manterola, Héctor Javier; J.A. Sauvaud, Jean André; M. Reyes-Ruiz, Mauricio
    Journal: Journal of Geophysical Research: Space Physics
    Year: 2013

 

 

 

Sobia Sadiq | Astrophysics | Member

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Assist Prof Dr. Sobia Sadiq | Astrophysics | Member

PHD at the University of the Punjab, Pakistan

Dr. Sobia Sadiq is an Assistant Professor at the University of Education, Lahore, Pakistan. She holds a Ph.D. in General Relativity (2019) and an M.Phil. in Applied Mathematics (2015) from the University of the Punjab. With a keen interest in Cosmology and Relativistic Astrophysics, she has presented her research at international conferences and seminars. Dr. Sadiq’s academic journey includes notable achievements such as receiving the HEC Indigenous Ph.D. Fellowship and organizing academic events. Her commitment to teaching and research underscores her dedication to advancing the field of Mathematics and Physics.

Professional Profiles:

Education

Feb. 2019 Ph.D. in General Relativity Thesis: Study of Physical Characteristics of Stellar Configurations Supervisor: Prof. Dr. Muhammad Sharif, Dean, Faculty of Science, University of the Punjab, Lahore 4.00 CGPA (Course Work) 4.00 CGPA (Comprehensive) University of the Punjab, Lahore Aug. 2015 M.Phil. in Applied Mathematics Thesis: Conformally Flat Anisotropic Polytropes Supervisor: Prof. Dr. Muhammad Sharif, Dean, Faculty of Science, University of the Punjab, Lahore 3.80 CGPA University of the Punjab, Lahore Jul. 2013 BS Mathematics 3.91 CGPA University of the Punjab, Lahore

Administrative Experience

Organizer, One Day Conference on Gravitation and Cosmology, Department of Mathematics, University of the Punjab, Lahore (2016). Organizer, PU 1st International Conference on Gravitation and Cosmology, Department of Mathematics, University of the Punjab, Lahore (2019). TEACHING EXPERIENCE Visiting Assistant Professor at Department of Mathematics, University of Education, Jauharabad Campus from November 04, 2019 to March 04, 2020. Assistant Professor (TTS) at Department of Mathematics, University of Education, Bank Road Campus, Lahore from December 01, 2021 to to-date.

Awards Scholarships and Honors

3 rd position in Intermediate with merit certificates and prizes awarded by BISE Sargodha and government of the Punjab, Pakistan. Merit Scholarship awarded by Punjab University during BS and M.Phil. 3 rd position in BS Mathematics. HEC Indigenous Ph.D. Fellowship for 5000 Scholars, Phase-II, Batch-III.

Research Interest

Cosmology, Electromagnetic Field Theory, Geometry, Special and General Relativity, Relativistic Astrophysics Mathematical Techniques.

Research Focus:

Dr. Sobia Sadiq’s research focuses on theoretical physics, specifically in the areas of gravitational decoupled solutions, anisotropic geometries, and electromagnetic effects on polytropes. Her work, often in collaboration with Prof. M. Sharif, has contributed significantly to understanding the behavior of charged and anisotropic systems, such as cylindrical and spherical configurations. Additionally, she has explored the thermodynamics of charged black holes and studied tidal effects in regular black holes. Dr. Sadiq’s research addresses fundamental questions in cosmology and astrophysics, shedding light on the intricate dynamics of gravitational and electromagnetic fields within diverse geometric settings.

Publications

  1. Thermodynamics of Charged Black Hole in Symmetric Teleparallel Gravity, cited by: 17, Publication: 2023.
  2. A comparative study of new generic wormhole models with stability analysis via thin-shell, cited by: 11, Publication: 2022.
  3. Charged anisotropic gravitational decoupled strange stars via complexity factor, cited by: 3, Publication: 2022.
  4. Anisotropic stellar solutions in torsion-trace gravity under Karmarkar condition, cited by: 3, Publication: 2022.
  5. Criticality and phase transition of Kerr–anti-de Sitter black hole with quintessence and cloud of strings, cited by: 2, Publication: 2023.
  6. Study of Cylindrical Polytropes with Cosmological Constant, cited by: 1, Publication: 2019.
  7. 2+ 1-dimensional gravitational decoupled anisotropic solutions, cited by: 15, Publication: 2019.
  8. Study of gravitational decoupled anisotropic solution, cited by: 6, Publication: 2019.
  9. Study of conformally flat polytropes with tilted congruence, cited by: 5, Publication: 2018.
  10. Stable anisotropic dissipative quark star with tilted observer, cited by: 2, Publication: 2018.
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