Howard Baer | Physics | Best Paper Award

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Prof. Howard Baer | Physics | Best Paper Award

Prof. Howard Baer, University of Oklahoma, United States

Professor Howard A. Baer is a distinguished American theoretical physicist renowned for his contributions to high-energy particle physics and cosmology. He currently holds the Homer L. Dodge Endowed Chair in High Energy Physics at the University of Oklahoma. Throughout his illustrious career, Professor Baer has significantly advanced our understanding of supersymmetry, dark matter, and physics beyond the Standard Model. His work has been instrumental in shaping modern theoretical frameworks and guiding experimental searches in particle physics. Beyond his research, he is also celebrated for his dedication to teaching and mentoring the next generation of physicists. 👨‍🏫

✍️ Profile

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🎓 Education

Professor Baer’s academic journey began at the University of Wisconsin-Madison, where he earned a B.Sc. in Physics and Mathematics with honors in 1979. He continued at the same institution to obtain his M.Sc. in Physics in 1981 and subsequently completed his Ph.D. in Physics in 1984. His doctoral research laid the foundation for his future endeavors in theoretical physics, particularly in the realms of supersymmetry and particle phenomenology. 🎓

🧑‍🏫 Experience

Following his Ph.D., Professor Baer embarked on a series of research and teaching positions that solidified his reputation in the field. He served as a Scientific Associate at CERN in Switzerland (1984-1985) and as a Postdoctoral Appointee at Argonne National Laboratory (1985-1987). He then joined Florida State University, progressing from Assistant Research Scientist to Full Professor between 1987 and 2003. In 2008, he transitioned to the University of Oklahoma, where he continues to contribute to both research and education in high-energy physics. 🧪

🔬 Research Interests

Professor Baer’s research encompasses a broad spectrum of topics in theoretical physics. He is particularly focused on supersymmetry, the Higgs boson, and the exploration of physics beyond the Standard Model. His work delves into the properties and detection methods of dark matter candidates, such as axions and neutralinos, and investigates the implications of these particles in cosmology and collider experiments. Additionally, he has made significant contributions to the development of computational tools for simulating particle interactions and decay processes. 🌌

🏆 Awards

Throughout his career, Professor Baer has received numerous accolades recognizing his contributions to physics. He was elected a Fellow of the American Physical Society in 1998 and received the George Lynn Cross Research Professor award from the University of Oklahoma in 2014. In 2024, he was honored with the Theory Best Researcher Award for his groundbreaking work in theoretical physics. His commitment to excellence in research and education continues to inspire both colleagues and students alike.

📚 Publication Top Notes

Living dangerously with decoupled first and second generation scalars: SUSY prospects at the LHC

Minding the gap: Testing natural anomaly-mediated SUSY breaking at high luminosity LHC

Minding the gap: Testing natural anomaly-mediated SUSY breaking at high luminosity LHC

Decoding the Gaugino Code Naturally at High-Lumi LHC

Stau pairs from natural SUSY at high luminosity LHC

Riasat Ali| General Relativity and Cosmology | Best Scholar Award

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Dr. Riasat Ali – General Relativity and Cosmology – Best Scholar Award

Shanghai University | China

Profiles 

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📍Current Position

He is a Senior Researcher in the Department of Mathematics at Shanghai University and the Newtouch Center for Mathematics of Shanghai University, located in Shanghai, People’s Republic of China. As of June 19, 1991, he has made significant contributions to the field of mathematical physics, particularly in the areas of General Relativity, Quantum Gravity, Cosmology, and Black Hole Thermodynamics. His email contact is riasatyasin@gmail.com, and his professional profiles can be found on Google Scholar, ResearchGate, and arXiv..

📝Publication Achievements 

Dr. Ali’s publication record showcases his profound impact on theoretical physics. His work includes significant articles on black hole physics and quantum gravity. Notable publications include: “Charged Vector Particle Tunneling from a Pair of Accelerating and Rotating and 5D Gauged Supergravity Black Holes” (The European Physical Journal C, 2017) co-authored with Wajiha Javed and G. Abbas. “Tunneling Glashow-Weinberg-Salam Model Particles from Black Hole Solutions in Rastall Theory” (Advances in High Energy Physics, 2018) with Ali Övgün. “Effect of Quantum Gravity on the Stability of Black Holes” (Symmetry, 2019), co-authored with Kazuharu Bamba and Syed Asif Ali Shah. “Tunneling of Massive Vector Particles Under the Influence of Quantum Gravity” (Chinese Physics C, 2020), co-authored with Wajiha Javed and others. “Gravity Effects on Hawking Radiation from Charged Black Strings in Rastall Theory” (Annals of Physics, 2021) with Muhammad Asgher and others.

 

🔍Ongoing Research 

He is currently focused on exploring the complex interactions between quantum gravity and black hole thermodynamics. His ongoing research aims to advance the understanding of how quantum effects influence black hole stability and evaporation processes. He is also investigating the tunneling behaviors of various particle types under extreme gravitational conditions, employing advanced mathematical models and simulations.

🔬Research Interests 

His research interests lie at the intersection of theoretical physics and cosmology. His primary areas of focus include: General Relativity: Investigating the effects of general relativity on black hole physics. Quantum Gravity: Studying the impact of quantum effects on gravitational systems. Cosmology: Analyzing the implications of black hole theories on cosmological models. Mathematical Physics: Applying mathematical frameworks to understand physical phenomena. Black Hole Thermodynamics: Exploring the thermodynamic properties of black holes.

🎓Academic Background 

He is currently pursuing a Ph.D. in Mathematics at Shanghai University and the Newtouch Center for Mathematics of Shanghai University. He holds a Master’s degree in Mathematics from the University of Education Township Campus, Lahore, Pakistan. His thesis focused on the phenomenon of charged vector particles tunneling, reflecting his deep engagement with advanced theoretical concepts.

🏆Scholarships and Awards 

He has been recognized for his contributions to theoretical physics with various scholarships and awards throughout his academic career. His work has been acknowledged in numerous conferences and publications, reflecting his status as a prominent researcher in his field.

🌐Professional Associations 

He is an active member of several professional organizations related to theoretical physics and mathematics. His affiliations include: American Physical Society (APS) International Society on General Relativity and Gravitation (ISGRG) Mathematical Association of America (MAA)

 📚Training & Workshops 

He has participated in numerous training sessions and workshops to stay updated with the latest advancements in his field. These workshops cover a range of topics from advanced mathematical techniques to cutting-edge theories in quantum gravity and black hole physics..

🎤Oral Presentations 

He has presented his research findings at several international conferences and workshops, where he has shared insights on black hole thermodynamics, quantum gravity, and related topics. His presentations are well-received for their depth and clarity.

🧑‍🔬Tasks Completed as a Researcher 

He has completed extensive research tasks, including: Developing new theoretical models for black hole physics. Conducting simulations and mathematical analyses of quantum gravity effects. Publishing significant research findings in high-impact journals.

🚀Success Factors 

His success as a researcher is attributed to his strong analytical skills, dedication to exploring complex theoretical concepts, and ability to collaborate effectively with other experts in the field. His rigorous approach to research and continuous pursuit of knowledge contribute to his prominence in theoretical physics.

🧪Publications & Laboratory Experience

His extensive list of publications highlights his expertise in black hole physics and quantum gravity. His laboratory experience includes working with advanced computational tools and theoretical models to simulate and analyze black hole behaviors under various conditions.

Citations

Citations    646 

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