Sadia Nazir | Computational Particle Physics | Best Researcher Award

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Dr. Sadia Nazir | Computational Particle Physics | Best Researcher Award

The University of Lahore | Pakistan

Dr. Sadia Nazir is a distinguished academic and researcher specializing in High Energy Physics with a focus on Computational Physics and Theoretical Physics. She has demonstrated a strong academic background, having achieved significant milestones in the field of Material Science and General Theory of Relativity. She currently holds the position of Assistant Professor at the Department of Physics at the University of Lahore, Lahore, Pakistan. Throughout her career, she has made notable contributions to energy applications and quantum mechanics.

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Early Academic Pursuits 📚

Dr. Nazir began her academic journey with a B.Ed. degree from the University of Sargodha. She pursued an M.Sc. in Computational Physics (2007-2009) followed by an M.Phil. in High Energy Physics, specializing in General Theory of Relativity (2012-2014). Her academic excellence culminated in obtaining a PhD in High Energy Physics with a specialization in Theoretical Computational Physics from the Centre for High Energy Physics at the University of the Punjab in 2022.

Professional Endeavors 🏆

Dr. Nazir has had a significant impact in the field of Physics through her professional roles. She began her teaching career as a Lecturer at Mulhal Science College, Chakwal, from 2010 to 2012. Following this, she joined The University of Lahore, where she served as a Lecturer (2015-2023) and currently holds the position of Assistant Professor since February 2023. Her career trajectory reflects a strong commitment to higher education and academic leadership.

Contributions and Research Focus 🔬

Dr. Nazir’s primary research interests lie in High Energy Physics, Computational Physics, and Material Science. Her work primarily involves theoretical ab-initio calculations, DFT simulations, and the optical, mechanical, and thermoelectric properties of materials for energy harvesting and solar cell applications. Her studies on double perovskites, ferromagnetism, and spintronics have far-reaching implications for the development of next-generation energy devices. Her publications in peer-reviewed journals reflect her significant contributions to the scientific community.

Impact and Influence 🌍

Dr. Nazir’s work has made a lasting impact on the scientific community, with her contributions in quantum mechanics, material science, and energy applications influencing numerous researchers and students alike. Her research is focused on developing new materials and devices that can improve energy conversion and storage. Dr. Nazir’s expertise has also contributed to advancing spintronic technologies, which have vast potential for energy efficiency and data processing.

Academic Citations 📑

Dr. Nazir’s research has gained significant attention in the scientific community, with over 25 published journal papers and highly-cited works on perovskite materials, spintronic devices, and half-metallic ferromagnetism. Her works are widely cited, indicating her research’s importance in advancing energy conversion and quantum mechanics fields.

Research Skills ⚙️

Dr. Nazir possesses extensive skills in Computational Physics, particularly in DFT simulations, quantum mechanics, and material science modeling. She is proficient in advanced programming languages such as Mathematica, C++, and Origin. Her ability to apply ab-initio simulations to investigate the optoelectronic, thermoelectric, and magnetic properties of materials sets her apart in the academic community.

Teaching Experience 🏫

With years of teaching experience, Dr. Nazir has served as an instructor for graduate and undergraduate courses at the University of Lahore. Her courses cover various areas such as Quantum Mechanics, Electrodynamics, Differential Geometry, and Mathematical Methods of Physics. She has supervised several M.Phil. and PhD students, guiding them through advanced research topics related to material properties and energy applications. Her teaching is known for its depth and clarity, making complex topics accessible to students.

Legacy and Future Contributions 🌟

Dr. Sadia Nazir is leaving behind a legacy of scientific exploration and academic excellence. Her contributions to computational physics, energy research, and material science will continue to inspire future generations of physicists and researchers. As her work in spintronics, energy harvesting, and solar cell technologies progresses, she is poised to make even more groundbreaking contributions to sustainable energy solutions. Her vision is to bridge the gap between theoretical research and real-world applications in green technologies and energy efficiency.

Publications Top Notes

Systematic study of spin-dependent electronic, mechanical, optoelectronic, and thermoelectric properties of halide double perovskites K2CuCrZ6 (Z= Cl, Br): DFT-calculations

  • Authors: NA Noor, MA Khan, S Niaz, S Mumtaz, S Nazir, KM Elhindi
    Journal: Journal of Physics and Chemistry of Solids
    Year: 2025

Unveiling the half-metallic ferromagnetism and transport properties of LiFeX3 (X = Cl, Br, I) perovskites for energy conversion and data processing devices

  • Authors: MA Yasir, M Bououdina, NA Noor, MM Saad H.-E, S Nazir
    Journal: Optical and Quantum Electronics
    Year: 2024

Investigation of half-metallic properties of Tl2Mo(Cl/Br)6 double perovskites for spintronic devices

  • Authors: Sadia Nazir et al.
    Journal: RSC Advances
    Year: 2024

Innovative multi-layered Fe3O4-Gr/carbon/polypyrrole nanofiber composite: “A new frontier in dielectric enhancement and EMI shielding”

  • Authors: U Anwar, M Rafi, NA Noor, S Nazir, S Mumtaz, IM Moussa
    Journal: RSC Advances
    Year: 2024

Mechanical, Magnetic, and Optical Characteristics of Tm-Based Chalcogenides for Energy-Harvesting Applications

  • Authors: M Asghar, S Nazir, T Hameed, NA Noor, YM Alanazi, S Mumtaz
    Journal: Physica Status Solidi (b)
    Year: 2023

 

 

Ranjita Kumari Mohapatra | High energy physics | Best Researcher Award

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Assist. Prof. Dr. Ranjita Kumari Mohapatra | High energy physics | Best Researcher Award

Rajdhani College Bhubaneswar | India

Dr. Ranjita Kumari Mohapatra is an Assistant Professor at Rajdhani College in Bhubaneswar, Odisha, specializing in the field of Physics. Her academic journey spans a rich history of rigorous research, teaching, and contributions to the scientific community. With over a decade of experience, Dr. Mohapatra has made significant strides in the realm of relativistic heavy-ion collisions, strongly interacting matter, and transport coefficients.

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Early Academic Pursuits 🎓

Dr. Mohapatra’s academic foundation began with her M.Sc. in Physics from Utkal University (2004), followed by a Post-M.Sc. program at the Institute of Physics, Bhubaneswar (2005-2006). Her Ph.D. research, titled Investigating Formation and Evolution of Z(3) Walls and Flow Anisotropies in Relativistic Heavy Ion Collisions, was completed at the Institute of Physics in 2012 under the guidance of Prof. Ajit M. Srivastava.

Professional Endeavors 🏢

Dr. Mohapatra’s career trajectory includes post-doctoral fellowships at prestigious institutions such as the Physical Research Laboratory (2012-2014), IIT Bombay (2018-2019), and Banki College (2019-2023). Since February 2023, she has been serving as an Assistant Professor in the Department of Physics at Rajdhani College. Over the years, she has been involved in cutting-edge research and has become a respected educator, imparting knowledge to both undergraduate and postgraduate students.

Contributions and Research Focus 🔬

Dr. Mohapatra’s research focuses on the equation of state of strongly interacting matter, conserved charge fluctuations, and calculation of transport coefficients in relativistic heavy ion collisions. She is currently spearheading an ongoing project funded by the OURIIP seed fund with a grant of Rs. 402,000/-. Her earlier works, such as Z(3) walls and the acoustic oscillations in heavy-ion collisions, have significantly impacted the understanding of QGP (Quark-Gluon Plasma) dynamics and other key phenomena in nuclear physics.

Impact and Influence 🌍

Dr. Mohapatra’s contributions to high-energy nuclear physics are invaluable. Her work on flow anisotropies and magnetic fields in relativistic heavy-ion collisions, as well as her studies on quark-hadron transitions, have had a profound influence on the field, advancing the understanding of strongly interacting matter. Her research continues to shape the future of QCD (Quantum Chromodynamics) and phase transitions in the early universe.

Academic Citations 📑

Dr. Mohapatra has authored numerous influential publications, with more than 19 research papers in renowned journals such as Phys. Rev. C, Phys. Rev. D, and Nucl. Phys. A. Key publications, like her work on inverse magnetic catalysis and transport coefficients, have been cited widely and contribute to the ongoing discourse in nuclear physics. Her work continues to inspire researchers in the fields of quantum chromodynamics and particle physics.

Research Skills 🧠

Dr. Mohapatra’s research expertise includes relativistic hydrodynamics, QCD phase diagram, magnetic catalysis, transport coefficients, and fluctuations in heavy-ion collisions. She has developed key models for understanding conserved charge fluctuations and the influence of magnetic fields on hadron resonance gas models, with significant applications in astrophysics and nuclear physics. Her analytical and computational skills are essential in advancing the field.

Teaching Experience 📚

Dr. Mohapatra’s teaching career spans several prestigious institutions. She has served as a tutor and teaching assistant for undergraduate and postgraduate courses at IIT Bombay, where she taught subjects like nuclear theory and BTech lab courses. At Banki College and Rajdhani College, she has taught undergraduate students in Physics. With a strong pedagogical approach, she instills deep knowledge of nuclear physics and high-energy physics among her students.

Awards and Honors 🏅

Dr. Mohapatra’s scholarly achievements have earned her significant recognition. She was awarded the OURIIP Seed Fund Research Grant (2021) for her innovative research on strongly interacting matter. Her work has also been acknowledged at national and international conferences, where she has presented her research and contributed to advancing the understanding of heavy-ion collisions.

Legacy and Future Contributions 🌱

As an educator and researcher, Dr. Mohapatra continues to build a lasting legacy through her research contributions and teaching practices. Her future goals include furthering the study of QCD matter, phase transitions, and transport coefficients. Dr. Mohapatra envisions her research aiding in precision measurements and experimental predictions that could revolutionize the understanding of nuclear matter in extreme conditions.

Publications Top Notes

QCD phase diagram and the finite volume fireball: A model study
  • Authors: Shaikh, A., Mohapatra, R.K., Datta, S.
    Journal: Nuclear Physics A
    Year: 2025
Finite Volume Effects on the QCD Chiral Phase Transition Using NJL Model
  • Authors: Shaikh, A., Mohapatra, R.K., Datta, S.
    Journal: Springer Proceedings in Physics
    Year: 2024
Axion mass in a hot QCD plasma
  • Authors: Das, A., Abhishek, A., Mohapatra, R.K., Mishra, H.
    Journal: Proceedings of Science
    Year: 2023
Diffusion matrix associated with the diffusion processes of multiple conserved charges in a hot and dense hadronic matter
  • Authors: Das, A., Mishra, H., Mohapatra, R.K.
    Journal: Physical Review D
    Year: 2022
In Medium Properties of Axion Within a Polyakov Loop Enhanced Nambu-Jona-Lasinio Model
  • Authors: Mohapatra, R.K., Abhishek, A., Das, A., Mishra, H.
    Journal: Springer Proceedings in Physics
    Year: 2022

 

 

 

Hyun Seok Yang | Particle physics and cosmology | Best Researcher Award

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Prof. Hyun Seok Yang | Particle physics and cosmology | Best Researcher Award

Department of Physics and Photon Science, Gwangju Institute of Science and Technology | South Korea

Hyun Seok Yang is an accomplished Associate Professor at the Gwangju Institute of Science and Technology (GIST) in South Korea, within the Department of Physics and Photon Science. He specializes in Particle Physics (Theory), with a profound academic and research background spanning several years. His academic journey began with a Ph.D. in Particle Physics from Sogang University in 1999, and his expertise has led him to collaborate with prominent global institutions and researchers. He continues to contribute significantly to the field, especially in theoretical frameworks surrounding particle physics.

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Early Academic Pursuits 🎓

Hyun Seok Yang’s academic path began at Hanyang University, where he earned his Bachelor’s (1986-1990) and Master’s (1991-1993) degrees in Physics and Particle Physics (Theory). This strong foundation set the stage for his later pursuit of a Ph.D. in Particle Physics (Theory) at Sogang University (1997-1999). His doctoral research laid the groundwork for his ongoing focus on the theoretical aspects of particle physics, and he quickly became recognized for his sharp intellect and deep understanding of the field.

Professional Endeavors 🌍

Upon earning his Ph.D., Yang continued to refine his expertise through various postdoctoral positions and fellowships. Notably, he worked at prestigious institutions like the Basic Science Research Institute (Sogang University), the Korea Institute for Advanced Study (KIAS), and the Institute of Physics at Humboldt University in Berlin. His research fellowships and experiences in Germany, Taiwan, and Japan further expanded his international exposure and enriched his academic portfolio.

Contributions and Research Focus 🔬

Prof. Yang’s primary research focus lies in Particle Physics (Theory), particularly the fundamental forces of nature and the underlying particles that compose the universe. His theoretical models contribute to understanding complex topics like quantum field theory, high-energy physics, and the standard model. In addition, his work often intersects with cutting-edge research in quantum mechanics and astrophysics, making him a leading figure in these domains.

Impact and Influence 🌟

Prof. Yang’s research and academic leadership have had a significant impact on both national and international scientific communities. His collaborations with leading researchers and institutions worldwide have helped push the boundaries of particle physics theory. He has consistently sought to bridge the gap between theoretical work and experimental discoveries, influencing both academic scholarship and practical applications in physics.

Academic Cites 📑

With numerous publications in high-impact scientific journals and contributions to particle physics research, Yang’s academic work has earned him substantial citations. His research has shaped the theoretical frameworks that continue to guide emerging studies in particle physics. As an academic leader, his influence is evident in both his publications and the work of his students and collaborators.

Research Skills 🧠

Prof. Yang is renowned for his theoretical modeling and problem-solving abilities in particle physics. His expertise includes quantum field theory, symmetry breaking, and the mathematical techniques essential for understanding complex physical phenomena. His critical thinking and innovative approaches make him an asset to research teams tackling some of the most profound questions in physics today.

Teaching Experience 📚

As an Associate Professor at GIST, Yang has dedicated himself to mentoring the next generation of physicists. His teaching responsibilities extend to graduate-level courses in particle physics and theoretical physics. His academic rigor and passion for the subject make him a highly respected educator in his field, with many of his students going on to make their own marks in research and academia.

Awards and Honors 🏆

In recognition of his outstanding contributions to scientific research, Yang was awarded the Humboldt Research Fellowship by the Alexander von Humboldt Foundation in 2005. This prestigious fellowship allowed him to conduct research at Humboldt University, further establishing his reputation in the global scientific community.

Legacy and Future Contributions 🔮

As Yang continues his academic career at GIST, his research and teaching will likely leave a lasting legacy in the field of particle physics. His dedication to advancing the understanding of fundamental forces and particles positions him to remain a central figure in the scientific community for years to come. The future of particle physics holds many exciting possibilities, and Yang’s continued work promises to shape the next era of discovery.

  Publications Top Notes

Explicit construction of Hermitian Yang-Mills instantons on coset manifolds

  • Authors: Park, J., Yang, H.S.
    Journal: Journal of High Energy Physics
    Year: 2024

Emergent Spacetime and Cosmic Inflation

  • Authors: Yang, H.S.
    Journal: Universe
    Year: 2024

Generalization of instanton-induced inflation and dynamical compactification

  • Authors: Ho, J., Kim, K.K., Koh, S., Yang, H.S.
    Journal: Journal of High Energy Physics
    Year: 2023

Algebraic properties of Riemannian manifolds

  • Authors: Chung, Y., Hwang, C.-O., Yang, H.S.
    Journal: General Relativity and Gravitation
    Year: 2023

Dark energy and dark matter in emergent gravity

  • Authors: Lee, J., Yang, H.S.
    Journal: Journal of the Korean Physical Society
    Year: 2022

 

 

Felix Lev | Particle physics and cosmology | Outstanding Scientist Award

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Prof Dr. Felix Lev | Particle physics and cosmology | Outstanding Scientist Award

Physics/Mathematics, Independent Researcher, United States

Felix Lev is a prominent physicist specializing in quantum theory and mathematics. He earned his Doctorate in Physical and Mathematical Sciences in 1991 and has made significant contributions to foundational physics, particularly in understanding the particle-antiparticle dilemma and cosmological challenges. Lev is also a seasoned scientist with extensive experience in software development for integrated circuit design, bridging theoretical physics with practical applications. His influential book, “Finite Mathematics as the Foundation of Classical Mathematics and Quantum Theory,” showcases his groundbreaking research.

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Education:

Felix Lev holds a Doctorate in Physical and Mathematical Sciences from the Institute for High Energy Physics, awarded in 1991, where his dissertation focused on the many-body problem in relativistic quantum mechanics. Prior to that, he earned a Ph.D. in 1977 from the Institute of Theoretical and Experimental Physics in Moscow, with a dissertation on elastic scattering processes. He also completed his Master’s in Physics at the Moscow Institute for Physics and Technology in 1971. His educational background has laid a strong foundation for his research and contributions to theoretical physics and mathematics.

Professional Experience:

Lev has a distinguished career as a physicist and scientist. He served as a Senior Scientist at Artwork Conversion Software from 1999 to 2024, developing cutting-edge optimization algorithms for integrated circuit design while continuing his research in quantum theory. Previously, he was a Leading Scientist at the Joint Institute for Nuclear Research in Russia from 1992 to 1999 and held key roles at various research institutes throughout his career. He also has teaching experience, having lectured on topics like relativistic quantum mechanics at several prestigious institutions, including Santa Monica Community College and the Joint Institute for Nuclear Research.

Research focus:

Felix Lev’s research primarily centers on the foundations of quantum theory and mathematics. He is particularly interested in constructing quantum theory based on finite mathematics and exploring de Sitter symmetry’s implications. His work addresses fundamental issues such as the particle-antiparticle problem, the cosmological constant problem, and the challenges of cosmic acceleration. Lev’s approach proposes innovative solutions that redefine traditional views, suggesting that gravity may stem from the finiteness of nature. His publications and theories aim to reshape our understanding of quantum mechanics and its foundational principles, offering a fresh perspective on the universe’s mysteries.

Awards and Honors:

Felix Lev has received notable accolades throughout his career. In 1997, he was awarded the Heisenberg-Landau Grant, a prestigious personal grant from the Max Planck Institute of Physics and the Joint Institute for Nuclear Research, recognizing his exceptional contributions to theoretical physics. Additionally, he was honored as a Senior Scientist in Theoretical and Mathematical Physics in 1987 by the Presidium of the USSR Academy of Sciences. These awards reflect his significant impact on the fields of quantum theory and mathematics, emphasizing his status as a leading researcher.

Publication Top Notes:

  • Exact construction of the electromagnetic current operator in relativistic quantum mechanics
    Authors: FM Lev
    Year: 1995
    Citations: 80 📄
  • On the role of K∗ K intermediate states in OZI-rule violating reactions of antiproton annihilation
    Authors: D Buzatu, FM Lev
    Year: 1994
    Citations: 76 📄
  • Poincaré covariant current operator and elastic electron-deuteron scattering in the front-form Hamiltonian dynamics
    Authors: FM Lev, E Pace, G Salme
    Year: 2000
    Citations: 73 📄
  • Electromagnetic and weak current operators for interacting systems within the front-form dynamics
    Authors: FM Lev, E Pace, G Salme
    Year: 1998
    Citations: 70 📄
  • Relativistic quantum mechanics and its applications to few-nucleon systems
    Authors: FM Lev
    Year: 1993
    Citations: 67 📄
  • Deuteron magnetic and quadrupole moments with a Poincaré covariant current operator in the front-form dynamics
    Authors: FM Lev, E Pace, G Salme
    Year: 1999
    Citations: 55 📄
  • Finiteness of physics and its possible consequences
    Authors: F Lev
    Year: 1993
    Citations: 40 📄
  • Deep inelastic scattering and final state interaction in an exactly solvable relativistic model
    Authors: E Pace, G Salme, FM Lev
    Year: 1998
    Citations: 37 📄

 

 

 

Shri Krishna | High energy physics | Best Researcher Award

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Dr. Shri Krishna | High energy physics | Best Researcher Award

Assistant Professor at Zakir Husain Delhi College, University of Delhi, India

Dr. Shri Krishna is a distinguished researcher and academic in theoretical high-energy physics, currently serving as an Assistant Professor at Zakir Husain Delhi College, University of Delhi. He earned his Ph.D. in Theoretical High Energy Physics from Banaras Hindu University (BHU) in 2015 under the supervision of Prof. R.P. Malik. His research centers on supersymmetric quantum mechanics and BRST symmetry within the framework of higher p-form gauge theories. Dr. Krishna’s academic journey also includes post-doctoral research at the Indian Institute of Science Education and Research (IISER) Mohali, where he worked with Prof. C.S. Aulakh. With numerous scientific publications in reputable journals, his work has significantly contributed to advancing the understanding of gauge theories and quantum mechanics. He has presented his research at national and international conferences, enhancing his recognition in the scientific community.

Profile:

Education:

Dr. Shri Krishna holds a Ph.D. in Theoretical High Energy Physics from Banaras Hindu University (BHU), Varanasi, completed in 2015. His doctoral research, supervised by Prof. R.P. Malik, focused on investigating (Non-)Abelian p-form gauge theories and supersymmetric quantum mechanics. Before his Ph.D., Dr. Krishna pursued an M.Phil. in Physics at Chhatrapati Shahu Ji Maharaj University (CSJMU), Kanpur, in 2009, where he gained a strong foundation in advanced physics concepts. He also earned his M.Sc. in Physics from CSJMU in 2006, further refining his understanding of theoretical and experimental physics. Dr. Krishna’s undergraduate studies, completed in 2002 at CSJMU, focused on Physics, Mathematics, and Chemistry. His robust educational background has equipped him with the knowledge and expertise to contribute meaningfully to the field of high-energy theoretical physics, especially in gauge theory and supersymmetry.

Professional experience:

Dr. Shri Krishna brings a wealth of experience from both research and teaching roles. After completing his Ph.D. in 2015, he undertook post-doctoral research at IISER Mohali, working with Prof. C.S. Aulakh from September 2015 to August 2018. His post-doctoral work focused on gauge theories and supersymmetry, contributing to the field with several impactful publications. Following this, Dr. Krishna transitioned into academia as an Assistant Professor (Ad-hoc) at Zakir Husain Delhi College and Miranda House, University of Delhi, where he has been teaching since August 2018. His teaching portfolio includes Quantum Mechanics, Electronics, Wave & Optics, and Elements of Modern Physics, among other subjects. His dual experience in advanced research and teaching has allowed him to bridge the gap between theoretical physics and pedagogical practice, offering students insights from cutting-edge research while guiding them through complex physics concepts.

Research focus:

Dr. Shri Krishna’s research focuses on higher p-form (p = 2, 3, 4) gauge theories within the framework of BRST and super field formulations. His work delves into the intricacies of supersymmetric quantum mechanics, particularly exploring N = 2, 4 systems and their novel symmetries. He has made significant contributions to understanding (non-)Abelian 2-form and 3-form gauge theories, which play a pivotal role in field theory and quantum mechanics. A key aspect of his research is developing theoretical models that unify aspects of gauge invariance, supersymmetry, and Hodge theory, aiming to offer deeper insights into the foundational principles of high-energy physics. Dr. Krishna continues to push the boundaries of these complex systems through his work on the BRST approach and super field methods, which hold promise for advancing theoretical models in high-energy particle physics.

Awards and Honors:

Dr. Shri Krishna has received several recognitions for his contributions to theoretical high-energy physics. During his academic career, he was awarded research fellowships at prestigious institutions, including his Ph.D. studies under the supervision of Prof. R.P. Malik at Banaras Hindu University (BHU). His research on BRST symmetry and gauge theories has been widely recognized, resulting in multiple publications in high-impact journals such as Annals of Physics and Eur. Phys. J. C. Additionally, Dr. Krishna has been invited to present his work at numerous national and international conferences, highlighting his research in areas like N = 2, 4 supersymmetric quantum mechanics and p-form gauge theories. These accolades reflect his dedication to advancing theoretical physics and his growing reputation within the academic and scientific communities.

Publication Top Notes:

  • A quantum mechanical example for Hodge theory
    S. Krishna, R. P. Malik
    Annals of Physics, 2024, 464, 169657.
    Citations: 1
  • A massive field-theoretic model for Hodge theory
    S. Krishna, R. Kumar, R. P. Malik
    Annals of Physics, 2020, 414, 168087.
    Citations: 12
  • Effective sextic superpotential and B – L violation in NMSGUT
    C. S. Aulakh, R. L. Awasthi, S. Krishna
    Pramana – Journal of Physics, 2017, 89(4), 51.
    Citations: 2
  • Augmented superfield approach to gauge-invariant massive 2-form theory
    R. Kumar, S. Krishna
    European Physical Journal C, 2017, 77(6), 387.
    Citations: 7
  • N = 4 supersymmetric quantum mechanical model: Novel symmetries
    S. Krishna
    International Journal of Modern Physics A, 2017, 32(11), 1750055.
    Citations: 1
  • Novel symmetries in an interacting N = 2 supersymmetric quantum mechanical model
    S. Krishna, D. Shukla, R. P. Malik
    International Journal of Modern Physics A, 2016, 31(19), 1650113.
    Citations: 8
  • N = 2 SUSY symmetries for a moving charged particle under influence of a magnetic field: Supervariable approach
    S. Krishna, R. P. Malik
    Annals of Physics, 2015, 355, pp. 204–216.
    Citations: 15
  • A free N = 2 supersymmetric system: Novel symmetries
    S. Krishna, R. P. Malik
    EPL, 2015, 109(3), 31001.
    Citations: 11
  • Augmented superfield approach to nilpotent symmetries of the modified version of 2D Proca theory
    A. Shukla, S. Krishna, R. P. Malik
    Advances in High Energy Physics, 2015, 2015, 258536.
    Citations: 9
  • Nilpotent and absolutely anticommuting symmetries in the Freedman-Townsend model: Augmented superfield formalism
    A. Shukla, S. Krishna, R. P. Malik
    International Journal of Modern Physics A, 2014, 29(31), 1450183.
    Citations: 5

Conclusion:

Dr. Shri Krishna is an accomplished researcher with a strong foundation in theoretical high-energy physics. His focus on supersymmetric quantum mechanics and gauge theories positions him as a strong candidate for the Best Researcher Award. With additional outreach and interdisciplinary collaborations, he could further elevate his already impressive academic standing.