Shri Krishna | High energy physics | Best Researcher Award

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.

 

Sadia Sagar | Material Science | Academic Excellence in Applied Physics Award

Assist Prof Dr. Sadia Sagar | Material Science | Academic Excellence in Applied Physics Award

Assistant Professor at Lahore Garrison University, Pakistan

Dr. Sadia Sagar, an Assistant Professor at Lahore Garrison University, Pakistan, holds a PhD in Materials and Surface Engineering from NUST. With a rich academic background spanning over a decade, she has contributed significantly to the fields of Materials Engineering, Nanotechnology, and Polymer Engineering. Her research interests include high-strength composites, biomedical physics, and membrane technology. Dr. Sagar’s career encompasses both academic and industrial roles, reflecting her versatile expertise. Passionate about innovation, she aims to make impactful contributions to scientific advancements while fostering a culture of learning and collaboration in academia.

Professional Profiles:

Education

PhD: Materials and Surface Engineering, SCME, National University of Science and Technology (NUST), Islamabad, Pakistan (October 2014) Dissertation Title: “Thermo-mechanical Investigation of Nanoreinforcements Doped Elastomeric Nanocomposite Thermal Insulations” Thesis Supervisor: Prof. Dr. Asghari Maqsood (SI), Prof. Dr. Mohammad Shahid MS: Materials and Surface Engineering, SCME, NUST, Islamabad, Pakistan (July 2009) Dissertation Title: “Synthesis and Mechanical Testing of Particle & Fiber Reinforced High Strength Composite Materials” Thesis Supervisor: Prof. Dr. Muhammad Bilal Khan (TI) M.Sc.: Master of Physics, Lahore College for Women University, Lahore, Pakistan (August 2005) B.Sc.: Physics, Chemistry, Mathematics, University of the Punjab, Lahore, Pakistan (2003)

Work Experience

Assistant Professor, Department of Physics, Lahore Garrison University, Lahore, Pakistan (October 24, 2022 – Present) Associate Professor, Head of Department of Physics, The University of Lahore, Lahore, Pakistan (November 4, 2020 – August 21, 2022) Assistant Professor, Dept. of Physics, The University of Lahore, Lahore, Pakistan (December 21, 2018 – November 4, 2020) Assistant Professor, Dept. of Polymer Engineering and Technology, CEET, University of the Punjab, Lahore, Pakistan (February 19, 2015 – February 18, 2018) Science Teacher, Sagar Model Girls & Boys Higher Secondary School, Mughal Pura Lahore, Pakistan (December 01, 2006 – August 30, 2007) Senior Teacher, The Cathedral Higher Secondary School, Abid Majeed Road Lahore Cantt, Lahore, Pakistan (September 13, 2005 – November 30, 2006) Visiting Experience: Assistant Professor, Lahore Garrison University, Lahore, Pakistan (October 2018 to June 2020) Industrial Experience: Senior Research Analyst, R& D Department, Glow Pak International, Lahore, Pakistan (February 19, 2018 – December 20, 2018) Assistant Material Coordinator, Pakistan Carnes & Hoists (PVT) LTD, Liaison Office, Lahore, Pakistan (February 25, 2013 – February 15, 2015)

Research Interests

Materials Engineering,Surface Engineering,Nanotechnology,Polymer Engineering, Membrane Technology,Conducting Polymer,Ceramic Composites,Biomedical Physics,High strength composites,Ablative composites,Polymeric membranes (MF, NF, RO),Polymer nanocomposite,Synthetic fibers reinforced rubber composite,Synthesis and surface treatment of nano-materials,Fire retardant polymer coatings & rubber composites,Nanoferrites and Conducting Polymer,Hydrogel for Biomedical application,Nanofluids for oil recovery application

Research Focus:

Dr. Sadia Sagar’s research focus lies predominantly in the realm of materials science and engineering, with a specialization in the synthesis, characterization, and application of advanced composite materials. Her work encompasses various areas, including the development of polymeric nanocomposites, investigation of novel membrane technologies, and exploration of nanomaterials for diverse applications such as water treatment and thermal insulation. With a keen interest in both theoretical investigations and practical applications, Dr. Sagar’s contributions have significantly advanced our understanding of materials behavior and paved the way for innovative solutions in fields ranging from environmental remediation to aerospace engineering.

Publications

  1. Reinforcement of biodegradable SiO2NPs-modified cellulose-gelatin hydrogel films with antioxidant and antibacterial properties as potential food packaging,  Publication: 2024.
  2. Deportment Tuning of Polymeric Gas Separation Membranes: ZIF-L/PES Nanocomposite, Publication: 2023.
  3. Fusarium oxysporum; its enhanced entomopathogenic activity with acidic silver nanoparticles against Rhipicephalus microplus ticksPublication: 2023.
  4. Optoelectronic properties of RuCrX (X= Si, Sn, Ge) half heusler alloys: a DFT studyPublication: 2023.
  5. Structural stability, mechanical, and optoelectronic properties of A2TlBiI6 (A= Cs and Rb) for energy harvesting: a first principles investigation, Publication: 2023.
  6. Synthesis and Characterizations of Novel Spinel Ferrites Nanocomposites Al0.5Cr0.5Zn0Fe2O4 and Zn0.5Cr0.5Al0Fe2O4Publication: 2023.
  7. Reinforcement of single-walled carbon nanotubes on polydimethylsiloxane membranes for CO2, O2, and N2 permeability/selectivity, Publication: 2023.
  8. Synergistic effect of GO/ZnO loading on the performance of cellulose acetate/chitosan blended reverse osmosis membranes for NOM rejection, Publication: 2023.
  9. Surface hardness of pristine and laser-treated zinc as a function of indentation load and its correlation with crystallite size valued by Williamson-Hall analysis, size-strain …, Publication: 2023
  10. Theoretical investigations of optoelectronic and transport properties of Rb2YInX6 (X= Cl, Br, I) double perovskite materials for solar cell applications, Publication: 2022.
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