Rohit Yadav | High energy physics | Best Researcher Award

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Mr. Rohit Yadav | High energy physics | Best Researcher Award

National Institute of Technology Warangal | India

Rohit Yadav is a Research Scholar at the National Institute of Technology (NIT), Warangal, India, specializing in hybrid supercapacitors and electrode materials for energy storage systems. His research focuses on designing and developing high-performance, eco-friendly supercapacitors aimed at advancing electric vehicles (EVs) and promoting green energy solutions. Rohit’s work is essential for the sustainable energy revolution and has already contributed significantly to renewable energy storage and smart grid applications.

👨‍🎓Profile

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Early Academic Pursuits 🎓

Rohit completed his M.Sc. in Physics in 2020 from the Malviya National Institute of Technology, Jaipur, India. His dissertation focused on studying cathode materials for metal-air batteries, laying a strong foundation for his later work in advanced energy storage systems. His academic journey provided a deep understanding of material science and electrochemical processes, which continues to shape his innovative approach to supercapacitor research.

Professional Endeavors 🔬

As a Program Committee Member for the IEMDST 2024 Conference, Rohit played a crucial role in organizing and overseeing a global scientific event. Additionally, he served as the General Secretary of the Physics Society at NIT Warangal in 2023, organizing scientific talks and coordinating weekly research presentations. His leadership and collaboration in these roles underscore his commitment to fostering scientific dialogue and promoting academic growth in the scientific community.

Contributions and Research Focus 🔍

Rohit’s research interests span across the development of hybrid supercapacitors, focusing on the synthesis and characterization of novel electrode materials. His work directly impacts the advancement of energy storage systems for electric vehicles and renewable energy solutions. By enhancing the performance of supercapacitors with eco-friendly materials like mesoporous strontium titanate and activated carbon derived from natural biomass, he contributes to sustainable, efficient energy storage solutions. His dedication to green energy applications marks a crucial intersection of technology and environmental impact.

Research Skills 🛠️

Rohit is highly skilled in synthesis techniques such as sol-gel and hydrothermal methods for creating novel electrode materials. His expertise includes electrochemical characterization, materials optimization, and nanomaterial design, which are key in developing high-performance energy storage systems. Additionally, he is proficient in advanced analytical techniques, ensuring that his materials meet the rigorous demands of sustainable energy solutions.

Awards and Honors 🏆

Rohit’s dedication and hard work have been recognized through several accolades:

  • Best Paper Award – 2023: For his exceptional paper presented at an international conference.
  • Position Certificate in Mini Marathon – 2024: A testament to his balanced and disciplined approach to both academic and personal growth.

These honors highlight his outstanding contributions to the field of energy storage and his commitment to excellence in both academic and extracurricular endeavors.

Legacy and Future Contributions 🚀

Rohit’s long-term vision is to push the boundaries of hybrid supercapacitor technology and advanced electrode materials to further enhance energy storage systems for electric vehicles and renewable energy grids. His work is poised to play a crucial role in the global transition to sustainable energy solutions, and he aspires to continue contributing to green technologies that benefit both society and the environment.

Publications Top Notes

Synthesis and Electrochemical characterization of activated porous Carbon Derived from Walnut shells as an Electrode material for symmetric Supercapacitor Application

  • Authors: R Yadav, N Macherla, K Singh, K Kumari
    Journal: Engineering Proceedings 59 (1), 175
    Year: 2024

Structural-Morphological Insights into Optimization of Hydrothermally Synthesized MoSe2 Nanoflowers for Improving Supercapacitor Application

  • Authors: P Yadav, R Yadav, J Pani, RM Singh, D Singh, K Kusum, H Borkar, …
    Journal: Dalton Transactions
    Year: 2025

Temperature-dependent hydrothermal processing of WS2 nanorods with controlled growth morphology, crystallography and optical properties

  • Authors: DS Ahlawat, D Singh, R Yadav, K Kumari, H Borkar, J Gangwar
    Journal: Materials Letters 377, 137386
    Year: 2024

Electrochemical analysis of sol-gel and hydrothermal synthesized mesoporous strontium titanate spherical nanoparticles as electrode material for high-performance flexible supercapacitors

  • Authors: R Yadav, R Banoth, K Singh, H Borkar, K Kumari
    Journal: Materials Chemistry and Physics 328, 130004
    Year: 2024

Novel industrial biomass derived materials for super capacitor application in powering up electronic gadgets

  • Authors: P Yadav, PA Azeem, S Patel, G Mahar, R Yadav, H Borkar
    Journal: Journal of Energy Storage 97, 112653
    Year: 2024

 

 

Mahdieh Ghaseminejad | High energy physics | Editorial board member

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Dr. Mahdieh Ghaseminejad | High energy physics | Editorial board member

Yazd University | Iran

Dr. Mahdieh Ghasemi Nejad is a flexible and experienced researcher with a strong background in industrial, experimental, and theoretical sciences. She has specialized expertise in micro and nanomaterials, polymers, and nuclear physics. As an academic researcher and university lecturer, she combines her profound knowledge with practical experience in product design and development. Dr. Ghasemi Nejad is a strong communicator, proficient in teamwork, and excels at taking on new challenges and initiatives.

👨‍🎓 Profile

🎓 Early Academic Pursuits

Dr. Ghasemi Nejad embarked on her academic journey with a Bachelor’s degree in Solid State Physics from Kerman University (2005-2009), where she excelled in her studies. She then pursued a Master’s degree in Nuclear Physics at Payam Noor University in Mashhad (2009-2011). Her academic career culminated with a Ph.D. in Nuclear Physics from Yazd University (2017-2021), where she furthered her expertise in the interdisciplinary fields of nuclear and material sciences.

🔬 Professional Endeavors

Currently, Dr. Ghasemi Nejad serves as the Managing Director of Gita Baspar Co. in Yazd, where she is involved in consulting and cooperation on polymer production and product design. Alongside this, she has had an extensive career as a university lecturer at both Azad University and Payam Noor University, contributing to higher education and mentoring young researchers. Dr. Ghasemi Nejad also held the position of Head of Design and Development Unit at Nano Sanjesh Yaran Mohit Co., where she was responsible for product innovation and supervising production processes from 2017 to 2022.

🔬 Contributions and Research Focus

Dr. Ghasemi Nejad’s research revolves around micro and nanomaterials, polymers, and nuclear physics, with a particular focus on the shielding properties of materials against radiation and antibacterial applications. Some of her key research topics include:

  • X-ray attenuation properties of composite materials such as PbO and graphene.
  • The shielding performance of materials like EPVC (lead-free) and high-Z oxide fibers.
  • Investigating the antibacterial properties of polymeric composites containing nanoparticles such as Molybdenum Trioxide.
  • Monte Carlo simulations for radon measurement in water and X-ray attenuation models.

Her work is instrumental in both theoretical and applied aspects of material science, particularly in radiation protection and nanotechnology.

🌍 Impact and Influence

Dr. Ghasemi Nejad has significantly contributed to the fields of nuclear physics, polymer science, and nanomaterials. Her publications and conference papers have made her a recognized figure in the scientific community, particularly in radiation shielding and nanomaterial applications. Her research is highly influential in both academic circles and industrial sectors, where her work in polymer production and product design is shaping innovative solutions for radiation protection and nanocomposites.

💻 Computer Skills

  • Microsoft Office Suite (Word, Excel, PowerPoint)
  • MCNP and GEANT4 for nuclear simulations
  • MATLAB for data analysis
  • Origin Pro for scientific plotting
  • ChemDraw and OPUS for chemical structure drawing
  • Prezi and Image J for presentations and image processing

Her diverse computer skills ensure effective data analysis, modeling, and presentation in both academic and industrial contexts.

🏆 Awards and Honors

Dr. Ghasemi Nejad has been recognized for her scientific achievements throughout her career, including:

  • First place in the Ninth Scientific Festival of Students (Scientific Olympiad in Physics), 2009.
  • Ranked first among undergraduate students at Kerman University in 2009.
  • Patent Declaration for an X-ray protective polymer layer in 2020.

These recognitions emphasize her commitment to scientific excellence and innovation.

Top Noted Publications

  • The effect of modified Tin oxide on X-ray attenuation: An experimental and theoretical study
    Authors: Ghasemi-Nejad, M., Gholamzadeh, L., Adeli, R., Shirmardi, S.P.
    Journal: Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms
    Year: 2024
  • Investigation of Antibacterial Activity of Synthesized PVC Composites Containing Molybdenum Trioxide Nano Particles
    Authors: Ghasemi-Nejad, M., Gholamzadeh, L., Adeli, R., Shirmardi, S.P.
    Journal: Journal of Surface Investigation
    Year: 2023
  • A comprehensive study of the antibacterial and shielding properties of micro and nano-EPVC lead-free shields
    Authors: Ghasemi-Nejad, M., Gholamzadeh, L., Adeli, R., Shirmardi, S.P.
    Journal: Physica Scripta
    Year: 2022
  • A study of the shielding performance of fibers coated with high-Z oxides against ionizing radiations
    Authors: Gholamzadeh, L., Asari-Shik, N., Aminian, M.K., Ghasemi-Nejad, M.
    Journal: Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
    Year: 2020

 

Xuepeng Gao | High energy physics | Best Researcher Award

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Mr. Xuepeng Gao | High energy physics | Best Researcher Award

Key Laboratory of Safety Mining in Deep Metal Mines, Ministry of Education, Northeastern University | China

Xuepeng Gao, a Doctoral Candidate at Northeastern University, specializes in sensor applications to study and mitigate coal mine tremors and rock bursts. With 4 publications in EI/SCI journals and 4 patents applied, his research addresses global challenges in mining safety. He has received multiple awards, including the Silver Medal at the 8th China International “Internet+” Innovation and Entrepreneurship Competition (2023).

👨‍🎓 Profile

🎓 Early Academic Pursuits

Xuepeng Gao completed his bachelor’s and master’s degrees at Shandong University of Science and Technology, laying a strong foundation in mining safety technologies. Currently, he is pursuing his Ph.D. at the Key Laboratory of the Ministry of Education for Safe Mining of Deep Metal Mines at Northeastern University, under the guidance of academician Yishan Pan.

🏛️ Professional Endeavors

Xuepeng’s research revolves around the mechanism analysis and prevention of coal mine tremors. His work integrates signal monitoring and microseismic sensor technology to address the unpredictable nature of mining-induced disasters.

🔬 Contributions and Research Focus

His innovative efforts include:

  • Signal Analysis: Differentiating types of roof rock fractures using signal parameters.
  • Microseismic Sensors: Analyzing waveforms to formulate prevention strategies for mine earthquakes.
  • Dynamic Disaster Prevention: Pioneering the use of energy methods to monitor and predict rock bursts.

🌍 Impact and Influence

Xuepeng’s contributions extend globally, addressing the unpredictable challenges of mining tremors and rock bursts. His participation in competitions like the 8th China International “Internet+” College Students’ Innovation and Entrepreneurship Competition showcases his leadership in innovative solutions for mining safety.

🛠️ Technical Skills:

  • Sensor Applications: Expertise in microseismic sensor technologies for monitoring mining tremors and rock bursts.
  • Signal Analysis: Proficient in analyzing waveform characteristics to understand mine tremor signals.
  • Prevention Strategies: Developed prevention and control methods for mining earthquakes, based on empirical data.

🔗 Collaborations and Future Directions:

Though Xuepeng has not yet published books or engaged in significant international collaborations, his contributions to research and development in the sensor applications field position him as a future leader in mining safety. His research lays the groundwork for further innovation and collaboration with industry leaders and academic institutions.

Publications

 

 

Snezhana Abarzhi | High energy physics | Best Researcher Award

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Prof. Dr. Snezhana Abarzhi | High energy physics | Best Researcher Award

California Institute of Technology; The University of Western Australia | United States

👨‍🎓 Profile

🏫 Early Academic Pursuits

Prof. Dr. Snezhana I. Abarzhi embarked on her academic journey with a BS in Applied Mathematics and Physics and Molecular Biology from the Moscow Institute for Physics and Technology, graduating Summa Cum Laude in 1990. She further pursued her MS in Applied Mathematics & Physics at the Kapitza Institute for Physical Problems and completed her Ph.D. in Mathematics & Physics at the prestigious Landau Institute for Theoretical Physics. Her doctoral work, guided by Prof. S.I. Anisimov, laid the foundation for her rigorous theoretical exploration of far-from-equilibrium dynamics.

🌟 Professional Endeavors

Dr. Abarzhi’s distinguished career spans global institutions, including her roles as Professor and Chair of Applied Mathematics at the University of Western Australia, Guest Professor at Caltech, and Visiting Professor at Stanford University. With experience ranging from Carnegie Mellon University to the University of Chicago and prestigious fellowships in Germany, Japan, and Russia, she has consistently contributed to the advancement of Theoretical and Applied Physics, Applied Mathematics, and Data Science.

🔬 Contributions and Research Focus

Her research focuses on the nonlinear, multi-scale, and far-from-equilibrium dynamics of plasmas, fluids, and materials. Dr. Abarzhi is renowned for developing rigorous theoretical approaches to study instabilities, interfaces, and mixing. Key achievements include the discovery of new fluid instabilities, the inertial stabilization mechanisms of interfaces, and the formulation of the special self-similarity class in interfacial mixing. Her theory has redefined understanding in areas like the Rayleigh-Taylor instability.

🌍 Impact and Influence

Dr. Abarzhi has made lasting contributions to the scientific community by founding the globally recognized program “Turbulent Mixing and Beyond”. Her editorial roles and collaborations have enriched academic discourse and supported the advancement of multidisciplinary research. Her work has been featured as Highlights in leading journals and recognized by organizations like the American Physical Society and the National Academy of Sciences.

📈 Academic Cites and Recognitions

With over 183 publications and 350 conference papers, Dr. Abarzhi’s research is widely cited in fields spanning Physics, Mathematics, and Engineering. Her achievements include being a Fellow of the American Physical Society and the International Association of Advanced Materials, and receiving the Science Medal for pioneering contributions.

🛠️ Technical Skills

Her expertise encompasses theoretical modeling, applied mathematics, scientific computing, and data science. Dr. Abarzhi’s ability to bridge complex mathematical frameworks with real-world physical phenomena demonstrates her analytical and computational prowess.

📚 Teaching Experience

As a dedicated educator, Dr. Abarzhi has developed and taught graduate and undergraduate courses in mathematical physics, functional analysis, and complex system modeling. She has mentored numerous Ph.D. candidates and early-career researchers, contributing to the growth of the next generation of scientists.

🌟 Legacy and Future Contributions

Dr. Abarzhi’s work exemplifies the power of interdisciplinary collaboration and theoretical rigor. Her legacy lies in her transformative impact on understanding far-from-equilibrium processes and her efforts to foster scientific synergy. Looking forward, her continued exploration of universal principles in dynamics promises to drive innovations in science and education for decades to come.

Top Noted Publications

On kinematic viscosity, scaling laws and spectral shapes in Rayleigh-Taylor mixing plasma experiments
  • Authors: Snezhana I. Abarzhi, Kurt C. Williams
    Journal: Physics Letters A
    Year: 2024
Data-Based Kinematic Viscosity and Rayleigh–Taylor Mixing Attributes in High-Energy Density Plasmas
  • Authors: Snezhana I. Abarzhi, Kurt C. Williams
    Journal: Atoms
    Year: 2024
Perspective: Group Theory Analysis and Special Self-Similarity Classes in Rayleigh–Taylor and Richtmyer–Meshkov Interfacial Mixing with Variable Accelerations
  • Authors: Snezhana I. Abarzhi
    Journal: Reviews of Modern Plasma Physics
    Year: 2024
On Rayleigh–Taylor Dynamics
  • Authors: Abdul Hasib Rahimyar, Des Hill, James Glimm, Snezhana Abarzhi
    Journal: Atoms
    Year: 2023
Velocity Fluctuations Spectra in Experimental Data on Rayleigh–Taylor Mixing
  • Authors: Kurt C. Williams, Snezhana I. Abarzhi
    Journal: Atmosphere
    Year: 2023

 

 

 

Lin Cheng | High energy physics | Best Researcher Award

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Mrs. Lin Cheng | High energy physics | Best Researcher Award

North university of China, China

👨‍🎓 Profile

Orcid

📚 Early Academic Pursuits

Lin Cheng began their academic journey with a BSc in Information and Communication Engineering from the North University of China in 2010. Demonstrating a strong foundation in engineering, they advanced to earn both MSc (2013) and PhD (2021) degrees at the Key Laboratory for Physical Electronics and Devices, Xi’an Jiaotong University, a hub for innovation in photonics and electronic sciences. Lin’s doctoral studies were pivotal, focusing on cutting-edge research in light modulation and surface plasmon technologies, laying the groundwork for their future contributions.

🌟 Professional Endeavors

As an Associate Professor at the School of Semiconductor and Physics, North University of China since 2021, Lin Cheng has become a leading academic in photonics and metamaterials. Their international experience includes a visiting student tenure at the University of Ottawa, Canada, from September 2019 to October 2020, where they collaborated on advanced light propagation control techniques.

🔬 Contributions and Research Focus

Lin’s research is centered on metasurfaces, surface plasmon applications, nonlinear optics, epsilon-near-zero materials, and multi-wave mixing in Rubidium, contributing significantly to fields like light modulation and color display technologies. Their work has advanced the understanding of nonlinear antennas, tunable meta-absorbers, and innovative approaches to beam manipulation.

🌍 Impact and Influence

Lin Cheng’s work has made a significant impact in both academia and applied physics. Her published journal papers, including “Superscattering, Superabsorption, and Nonreciprocity in Nonlinear Antennas” (ACS Photonics, 2021), have become vital resources for researchers worldwide. Her studies on plasmonic colors and dynamic tunable radiation have influenced emerging metamaterial technologies, inspiring innovations in optics, and photonics.

📊 Academic Citations

With a robust portfolio of 10 journal publications, Lin’s work has earned numerous citations, reflecting the scientific community’s recognition of their contributions to optics and photonics. Their most notable paper, Superscattering, Superabsorption, and Nonreciprocity in Nonlinear Antennas, published in  ACS Photonics (2021), showcases their innovative approach to solving complex optical challenges.

💻 Technical Skills

Lin Cheng excels in cutting-edge simulation and modeling tools such as COMSOL and MATLAB for optical designs. Her technical expertise spans plasmonic structure fabrication, multi-wave mixing analysis, and epsilon-near-zero metamaterial development, making her a leader in physics, optical and photonic research.

🏆 Legacy and Future Contributions

With four funded projects totaling RMB 490,000, Lin is poised to make transformative contributions to light modulation and metasurface technologies. Their National Natural Science Foundation of China grant (2024–2026) supports research into nonlinear metasurfaces, signaling their commitment to shaping the future of photonics. Lin’s legacy will be defined by their dedication to advancing optical sciences and mentoring future researchers. 

Top Noted Publications

Superscattering, Superabsorption, and Nonreciprocity in Nonlinear Antennas
  • Authors: Lin Cheng, Rasoul Alaee, Akbar Safari, Mohammad Karimi, Lei Zhang, Boyd Robert
    Journal: ACS Photonics
    Year: 2021
Manipulation of a Ring-shaped Beam via Spatial Self- and Cross-phase Modulation in Lower Intensity
  • Authors: Lin Cheng, Zhaoyang Zhang, Lei Zhang, Danmeng Ma, Gaoguo Yang, Tian Dong, Yanpeng Zhang
    Journal: Phys. Chem. Chem. Phys.
    Year: 2019
Extrinsic Polarization-enabled Covert Plasmonic Colors using Aluminum Nanostructures
  • Authors: Lin Cheng, Kun Wang, Jianyong Mao, Xiao Ming Goh, Zhiqin Chu, Yanpeng Zhang, Lei Zhang
    Journal: Ann. Phys. (Berl.)
    Year: 2019
Competition and Energy Transfer between Forward and Backward Four-Wave Mixing via Atomic Coherence
  • Authors: Lin Cheng, Yaling Tian, Yize Liu, Yanpeng Zhang, Kangkang Li, Yang Liu, Ruizhou Liu
    Journal: IEEE J. Quantum Electron.
    Year: 2017
Modulation of the High-order Lagurre-Gaussian Beam in Dressing Four-Wave Mixing
  • Authors: Lin Cheng, Xing Liu, Yanyong Sun, Kun Wang, Lei Zhang, Yanpeng Zhang
    Journal: IEEE J. Quantum Electron.
    Year: 2018
Nonlinear Antennas with Tunable Radiation Patterns in Near Infrared
  • Authors: Lin Cheng, Lei Zhang
    Journal: Journal of Synthetic Crystals
    Year: 2021

 

 

 

Muneeb Ullah | High energy physics | Best Researcher Award

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Mr. Muneeb Ullah | High energy physics | Best Researcher Award

PhD, Pusan National University, Busan, South Korea

Muneeb Ullah, born on October 4, 1996, in Pakistan, is a highly motivated professional specializing in pharmaceutical sciences. Currently residing in Busan, South Korea, he is fluent in English, Urdu, and Pashto. Muneeb seeks a position in a result-oriented organization where his skills and education can contribute to mutual growth. His commitment to excellence is evident in his academic achievements and research contributions, positioning him as a valuable asset in the field of pharmacy.

Profile:

🎓Education:

Muneeb holds an MPhil in Pharmaceutical Sciences with a focus on Pharmaceutical Nanotechnology from the Department of Pharmacy, KUST, completed in 2022 with a first division score. Prior to that, he earned a BS in Pharmacy (Pharm-D) from KUST (2014-2019), also with first division honors. His academic journey includes a Pre-Medical F.Sc. from The Crescent Public School (2012-2013) and Matriculation from GHS Hurmaz (2010-2011), where he consistently achieved first division results.

Professional Experience:

Muneeb has diverse experience in education and research. As a Visiting Faculty Member at Billitong Higher Secondary School, he received the Best Teacher Award in 2020 for his impactful teaching. Additionally, he served as a Research Assistant at the National University of Medical Sciences (NUMS) in Islamabad, contributing significantly to various research initiatives. These roles have allowed him to blend his academic knowledge with practical applications, fostering a passion for teaching and research in the pharmaceutical field.

Research  Focus:

Muneeb’s research primarily focuses on pharmaceutical nanotechnology, highlighted by his MPhil thesis on developing Beclomethasone Dipropionate-loaded polymeric nanoparticles via a water-in-oil emulsion solvent evaporation method. His coursework includes pharmaceutics, nanotechnology, and biochemistry, providing a solid foundation for research methodologies. His laboratory skills encompass nanoparticle preparation, antimicrobial activity assessment, and bioinformatics analysis, equipping him to make significant contributions to the field of pharmaceutical sciences.

Awards and Honors:

Throughout his academic journey, Muneeb has received several prestigious awards. He was awarded the HEC-Indigenous Scholarship from 2016 to 2019 for his BS in Pharmacy at KUST. In May 2018, he received the Best Talent Award under the Prime Minister Laptop Scheme, recognizing his outstanding academic performance. Furthermore, he was honored with the Best Teacher Award for the 2020 session at Billitong Higher Secondary School, reflecting his dedication to education and student success.

📖 Publication Top Notes:

Title: Microbiome miracles and their pioneering advances and future frontiers in cardiovascular disease
  • Authors: Safdar, M., Ullah, M., Hamayun, S., Mustopa, A.Z., Hasan, N.
    Publication Year: 2024
    Citations: 1
Title: Development of Clindamycin-Releasing Polyvinyl Alcohol Hydrogel with Self-Healing Property for the Effective Treatment of Biofilm-Infected Wounds
  • Authors: Alifah, N., Palungan, J., Ardayanti, K., Yoo, J.-W., Hasan, N.
    Publication Year: 2024
    Citations: 0
Title: 3D printing technology and its revolutionary role in stent implementation in cardiovascular disease
  • Authors: Khan, M.A., Khan, N., Ullah, M., Naeem, M., Hasan, N.
    Publication Year: 2024
    Citations: 4
Title: Recent advancements in nanotechnology based drug delivery for the management of cardiovascular disease
  • Authors: Ullah, A., Ullah, M., Lim, S.I.
    Publication Year: 2024
    Citations: 7
Title: Nanotherapeutic approaches for transdermal drug delivery systems and their biomedical applications
  • Authors: Khan, S.U., Ullah, M., Saeed, S., Khan, M.A., Lu, K.
    Publication Year: 2024
    Citations: 4
Title: Single-cell RNA Sequencing (scRNA-seq): Advances and Challenges for Cardiovascular Diseases (CVDs)
  • Authors: Khan, S.U., Huang, Y., Ali, H., Ullah, M., Lu, K.
    Publication Year: 2024
    Citations: 7

 

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.