Assistant Professor from Jamia Millia Islamia, India
Dr. Majhar Ali is an accomplished Assistant Professor in the Department of Physics at Jamia Millia Islamia, New Delhi, India. With over 17 years of academic and research experience, he has significantly contributed to the fields of nuclear and particle physics, celestial mechanics, and the application of statistical models in high-energy collisions. Dr. Ali’s research expertise spans quark-hadron phase transitions, particle production analysis at ultra-relativistic energies, and the restricted three-body problem under various perturbations. His prolific academic journey includes publishing numerous articles in reputed international journals, participating in prestigious national and international conferences, and contributing to academic administration. Dr. Ali’s recent works on mass variation, relativistic effects, and modified potentials in the restricted three-body problem highlight his dynamic engagement with evolving scientific challenges. Apart from his research, he has developed strong teaching expertise across key physics subjects, including nuclear physics, modern physics, classical dynamics, and nanoscience. His ability to combine theoretical frameworks with practical applications marks him as a significant contributor to his discipline. Dr. Ali’s dedication to his students, administrative responsibilities, and continuous participation in scientific seminars and workshops reflect his commitment to both academic excellence and community development.
Professional Profile
Education
Dr. Majhar Ali has pursued a robust academic path, beginning with a Bachelor of Science (Honors) degree in Physics from Veer Kunwar Singh University, Arrah, India, in 1997. He continued his higher studies at Patna University, where he earned a Master of Science degree in Physics in 1999. His interest in advanced particle physics and statistical mechanics led him to pursue a doctoral degree at Jamia Millia Islamia, New Delhi, where he completed his Ph.D. in Physics in 2010. His doctoral research was focused on “Nucleus-Nucleus Collisions at High and Intermediate Energy: Particle Production, Collective Flow, and De-confinement Phenomenon,” which provided him with a deep understanding of high-energy nuclear collisions and statistical particle production models. His educational background is firmly grounded in both theoretical and experimental physics, which has significantly contributed to his versatile research capabilities. Throughout his academic journey, Dr. Ali has consistently demonstrated a passion for learning and a commitment to expanding his expertise in modern physics, which has continued to guide his teaching and research work in the years that followed.
Professional Experience
Dr. Majhar Ali has amassed extensive professional experience, beginning his academic career as a Senior Research Fellow under the University Grants Commission from 2008 to 2010. He subsequently served as an Assistant Professor in the Department of Physics at Kalindi College, University of Delhi, from 2010 to 2023, where he developed a reputation for academic excellence and mentorship. In 2024, Dr. Ali joined Jamia Millia Islamia as an Assistant Professor, where he continues to teach and lead research initiatives. His teaching portfolio spans more than 17 years, covering core and advanced physics subjects, including nuclear and particle physics, nanoscience and technology, classical dynamics, and statistical mechanics. Additionally, Dr. Ali has contributed significantly to the academic administration of Kalindi College, serving in multiple key roles, such as Deputy Coordinator for the Central Evaluation Center and Convenor of Remedial and Coaching Classes. His administrative responsibilities extended to critical committees focusing on student progress, internships, and anti-ragging policies. Dr. Ali’s professional journey is a blend of dedicated teaching, influential research, and active administrative leadership, demonstrating his commitment to shaping the academic environment and advancing the frontiers of physics.
Research Interests
Dr. Majhar Ali’s research interests encompass a broad range of advanced topics within physics, with particular focus on nuclear and particle physics, celestial mechanics, and statistical methods applied to high-energy collisions. His early work centered on the quark-hadron phase transition models, exploring the behavior of matter under extreme conditions using hadronic resonance gas models. Dr. Ali has also extensively investigated particle production mechanisms across a wide energy spectrum, from intermediate to ultra-relativistic energies, contributing valuable insights to the study of quark-gluon plasma formation. In recent years, his research has pivoted towards celestial mechanics, focusing on the dynamics of the perturbed restricted three-body problem (CR3BP), incorporating relativistic effects, mass variations, and modifications to classical potentials. This interdisciplinary approach bridges nuclear physics and astrophysical dynamics, underscoring his ability to tackle complex, multi-domain scientific challenges. His recent studies also delve into the effects of quantum corrections and variable mass systems in gravitational interactions. Dr. Ali’s research is characterized by the innovative application of mathematical models to solve real-world astrophysical and nuclear physics problems, positioning him as a researcher who contributes to both theoretical advancements and practical understanding within the field of physics.
Research Skills
Dr. Majhar Ali possesses an extensive set of research skills that span both theoretical and applied physics. His proficiency in developing and applying advanced statistical models has been instrumental in analyzing particle production across intermediate to ultra-relativistic energies. He is skilled in using the Hadronic Resonance Gas model to investigate quark-hadron phase transitions, providing valuable contributions to nuclear physics. In celestial mechanics, Dr. Ali demonstrates expertise in modeling the perturbed restricted three-body problem, incorporating relativistic corrections, mass variations, and modified gravitational potentials. He is adept at applying mathematical physics techniques to solve complex dynamical systems and has a strong command of analytical problem-solving in both classical and quantum domains. His research skills also include data interpretation from high-energy physics experiments, critical evaluation of theoretical models, and computational physics methods. Dr. Ali’s multi-disciplinary approach enables him to address a wide array of scientific questions, linking particle physics with astrophysical dynamics. Additionally, his teaching experience across diverse physics subjects has honed his ability to translate complex theoretical concepts into accessible knowledge, benefiting both his research collaborators and his students.
Awards and Honors
Dr. Majhar Ali’s academic journey is decorated with recognitions that reflect his dedication to scientific research and academic excellence. During his early research career, he was awarded the prestigious Senior Research Fellowship by the University Grants Commission, Ministry of HRD, Government of India, from 2008 to 2010, which supported his doctoral studies in nuclear and particle physics. His research presentation on the thermal model and rapidity spectra of hadrons earned him the Third Prize at the Natural Sciences Info-Fest 2007 organized by Jamia Millia Islamia, further recognizing his potential as a promising physicist. Dr. Ali has presented his research at several national and international conferences, including the Quark Matter 2008 Symposium and the DAE-BRNS High Energy Physics Symposium, where his work on multiple fireball formation and proton-antiproton flow was well received. Beyond his research accolades, Dr. Ali has actively contributed to academic seminars, workshops, and webinars, consistently participating in initiatives that foster academic growth and interdisciplinary learning. His awards and recognitions not only highlight his scientific contributions but also his role as a dedicated academic committed to advancing knowledge and nurturing the next generation of physicists.
Conclusion
Dr. Majhar Ali exemplifies the qualities of an outstanding researcher and educator, with a distinguished career that integrates rigorous research, effective teaching, and committed academic leadership. His work spans significant areas in nuclear and particle physics, particularly the study of high-energy collisions and the dynamics of celestial bodies under complex perturbations. His contributions to the understanding of quark-hadron transitions and particle flow dynamics have enriched the scientific community’s knowledge of fundamental physics. Dr. Ali’s professional journey is marked by his dedication to continuous learning, interdisciplinary research, and student mentorship. His consistent participation in conferences, seminars, and academic workshops illustrates his passion for academic engagement and scientific collaboration. Dr. Ali’s ability to balance teaching responsibilities with an active research agenda, along with his substantial administrative experience, further underscores his holistic approach to academia. While opportunities for expanding his international collaborations and research supervision remain areas for potential growth, his current accomplishments and trajectory position him as a valuable contributor to the global physics community. Dr. Majhar Ali is undoubtedly a strong and deserving candidate for recognition under the Best Researcher Award.
Publications Top Notes
1. To Study the Relativistic Effect in the Perturbed Circular Restricted Three-Body Problem
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Authors: M. Ali, Abdullah, S. Aneja, S. N. Prasad
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Journal: Modern Physics Letters A, 40(04), 2550027
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Year: 2025
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DOI: 10.1142/S0217732325500270
2. Effects of Mass Variation with Loglogistic Distribution in the Perturbed Interacting CR3BP with Heterogeneous Primary and Modified Newtonian Potential of Secondary
3. Analysis of Halo Orbits in the Elliptical R3BP with Mass Variation
4. Effects of Modified Potential and Quantum Correction in the Generalized Perturbed Interacting CR3BP with Variable Mass Newtonian Potential of Secondary
5. Strangeness Production – A Possible Signal of Quark Gluon Plasma Formation
6. Net Proton and Charged Meson Flow in Relativistic Heavy Ion Collisions at 200 GeV/A
7. Rapidity Distribution of Particles Produced in Ultra-relativistic Nucleus-Nucleus Collisions: A Possible Sequential Freeze-out Scenario
8. Longitudinal Hadronic Flow at RHIC in Extended Statistical Thermal Model and Resonance Decay Effects
9. Pion Production and Collective Flow Effects in Intermediate Energy Nucleus-Nucleus Collisions
10. Net Proton Flow and Nuclear Transparency Effects at RHIC: Multi-Fireball Model Approach