Salim Shekh | Mathematics | Young Scientist Award

Published on by Forensic Scientist Awards

Young Scientist Award

Salim Shekh
Assistant Professor, Department of Mathematics
Affiliation S. P. M. Science and Gilani Arts Commerce College
Country India
Scopus ID 56572682400
Documents 75
Citations 1,294
h-index 23
Subject Area Mathematics
Event International Forensic Scientist Awards
ORCID 0000-0003-4545-1975
Salim Shekh
S. P. M. Science and Gilani Arts Commerce College, India

Salim Shekh is an Indian mathematician and researcher affiliated with S. P. M. Science and Gilani Arts Commerce College, India. His research mainly focuses on cosmology, gravitation, dark energy, and modified gravity theories.[1] He has published several research articles in international journals and gained strong citation impact in mathematical physics and cosmology.[2]

Abstract

This article highlights the academic achievements of Salim Shekh in mathematics and cosmology. His work mainly studies modified gravity, dark energy models, and cosmological analysis. His publications and citation record show steady research contributions in theoretical physics and astrophysics.[3]

Keywords

General Relativity; Gravitation; Dark Energy; Cosmology; f(Q) Gravity; Mathematical Physics; Astrophysics.

Introduction

Modern cosmology studies the evolution and structure of the universe using mathematical and physical theories. Salim Shekh has contributed to this field through research on dark energy and modified gravity theories.[4] His work includes theoretical analysis and observational studies related to cosmic acceleration and cosmological models.[5]

Research Profile

Shekh’s research mainly focuses on modified gravity theories, especially f(Q) gravity and dark energy cosmology. His studies discuss anisotropic cosmological models, holographic dark energy, and observational constraints.[6]

He has published papers in journals such as Physics of the Dark Universe, Journal of High Energy Astrophysics, and Classical and Quantum Gravity.[7]

Research Contributions

One of Shekh’s important works is Anisotropic nature of space–time in fQ gravity, which studied cosmological anisotropy in modified gravity.[8] He also worked on cosmic acceleration and energy conditions in symmetric teleparallel gravity models.[9]

His studies on holographic dark energy and observational cosmology have contributed to discussions on accelerated expansion of the universe and alternative gravity theories.[10]

Publications

  • Anisotropic nature of space–time in fQ gravity, 2022.[8]
  • Models of holographic dark energy in f(Q) gravity, 2021.[10]
  • Observational constraints in accelerated emergent f(Q) gravity model, 2023.[11]
  • Modelling the accelerating universe with f(Q) gravity: observational consistency, 2024.[12]

Research Impact

Shekh has received more than 1,294 citations and has an h-index of 23, showing good academic impact in cosmology and mathematical physics.[2] His research is widely referenced in studies related to modified gravity and dark energy models.[12]

Award Suitability

Salim Shekh’s publication record, citation profile, and international collaborations support his suitability for the Young Scientist Award. His research contributions in cosmology and modified gravity theories demonstrate continuous academic involvement and scientific productivity.[8]

Conclusion

Salim Shekh has contributed significantly to research in cosmology, gravitation, and modified gravity theories. His publications, citation impact, and ongoing academic work reflect his active role in theoretical physics and mathematical cosmology.[10]

References

  1. Scopus Author Profile: Salim Harun Shekh.
    https://www.scopus.com/authid/detail.uri?authorId=56572682400
  2. Scopus citation metrics and h-index profile.
  3. Google Scholar profile of Dr. Salim Shekh.
    https://scholar.google.com/citations?hl=en&user=VOJJ1DgAAAAJ
  4. Shekh, S. H. (2021). Models of holographic dark energy in f(Q) gravity.
    https://doi.org/10.1016/j.dark.2021.100850
  5. Late-time acceleration studies in f(Q) gravity.
  6. Research publications on modified gravity and cosmology.
  7. International journals in cosmology and astrophysics.
  8. Koussour, M., Shekh, S. H., & Bennai, M. (2022). Anisotropic nature of space–time in fQ gravity.
    https://doi.org/10.1016/j.dark.2022.101051
  9. Cosmic acceleration and energy conditions in symmetric teleparallel gravity.
  10. Holographic dark energy studies in modified gravity.
  11. Observational constraints in accelerated emergent f(Q) gravity model.
  12. Modelling the accelerating universe with f(Q) gravity.

Vyacheslav Abramov | Mathematics | Research Excellence Award

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Dr. Vyacheslav Abramov | Mathematics | Research Excellence Award

Retired Academician, Monash University | Australia

Dr. Vyacheslav Abramov is an internationally recognized mathematician whose research centers on probability theory, stochastic processes, and queueing systems, with strong applications to telecommunications, computer networks, and applied stochastic modelling. His scholarly work has made foundational contributions to the theory of Markov chains, random walks, loss systems, Toeplitz and circulant matrices, and asymptotic methods in queueing networks. He is also known for extending classical convergence tests, recurrence criteria, and fixed-point theorems to infinite-dimensional settings. His research bridges rigorous mathematical theory with practical modelling problems in engineering and networked systems.

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Citations
226
Documents
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Citations

Documents

h-index

View Scopus Profile  View ORCID Profile  View ResearchGate Profile

Featured Publications


A new criterion for recurrence of Markov chains with an infinitely countable set of states

– Theory of Probability and Mathematical Statistics, 112(5), October 2024


CONDITIONS FOR RECURRENCE AND TRANSIENCE FOR TIME-INHOMOGENEOUS BIRTH-AND-DEATH PROCESSES

– Bulletin of the Australian Mathematical Society, 109(2), May 2023

Biswajit Sahu | Mathematics | Best Researcher Award

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Prof. Biswajit Sahu | Mathematics | Best Researcher Award

West Bengal State University | India

Prof. Biswajit Sahu is an eminent academician and researcher in the Department of Mathematics at West Bengal State University, India. His scholarly reputation is built upon his profound expertise in plasma dynamics, nonlinear wave propagation, and dynamical systems. With more than two decades of impactful teaching and research, he has become a cornerstone in the study of theoretical plasma physics, widely respected for his ability to bridge mathematical rigor with physical phenomena. He has guided doctoral scholars, collaborated with international institutions, and published extensively in highly reputed scientific journals, thereby shaping the global discourse in plasma research.

Professional Profile

Scopus

Google Scholar

ORCID

Education

Prof. Biswajit Sahu academic journey reflects a strong foundation in mathematics and its applications in physical sciences. He pursued his Master of Science in Applied Mathematics from the University of Calcutta, where he acquired advanced knowledge in mathematical modeling and analysis. He later obtained a Doctor of Philosophy in Science from Jadavpur University, where his research concentrated on the intricate behavior of nonlinear plasma waves. This academic background not only deepened his theoretical insight but also provided him with the analytical tools to contribute original findings in the interdisciplinary domain of plasma physics and dynamical systems.

Experience

Prof. Biswajit Sahu’s professional career has been marked by steady advancement in both teaching and research roles. He began as a Research Scholar at the Indian Statistical Institute, engaging in high-level theoretical studies, before taking up a teaching position at Dinhata College as Lecturer in Mathematics. He subsequently joined West Bengal State University, where his dedication and expertise elevated him through successive roles as Assistant Professor, Associate Professor, and ultimately Professor of Mathematics. His teaching spans diverse areas such as nonlinear differential equations, plasma dynamics, continuum mechanics, numerical analysis, and operations research. In parallel, he has successfully completed research projects, served as referee for international journals, and contributed as Review Editor for the section of Low-Temperature Plasma Physics in Frontiers in Physics.

Research Interest

Prof. Biswajit Sahu’s research interests lie at the intersection of applied mathematics and plasma physics. His core focus is on nonlinear wave dynamics in plasma, with particular emphasis on dust ion-acoustic waves, quantum plasmas, and dissipative structures in magnetized environments. He is also deeply interested in dynamical systems, nonlinear partial differential equations, and their applications in astrophysical and space plasmas. His work integrates advanced mathematical modeling with physical interpretation, shedding light on complex behaviors such as solitons, shocks, chaos, and wave modulations in multi-component plasma systems. These contributions have not only advanced theoretical understanding but also influenced practical insights into space physics and plasma-based technologies.

Awards

Prof. Biswajit Sahu has received several distinguished academic recognitions. He was awarded the Graduate Aptitude Test in Engineering (GATE) qualification, which marked his early excellence in mathematical sciences. His research potential was further recognized with the Research Fellowship Award from the Indian Statistical Institute. He also qualified the CSIR-UGC National Eligibility Test (NET), a highly competitive fellowship program in India, which provided him the platform to pursue advanced research in plasma dynamics. These awards stand as testimony to his academic brilliance and his long-standing contributions to mathematics and physics.

Publications

Prof. Biswajit Sahu has published more than forty peer-reviewed research articles in internationally reputed journals, many of which are frequently cited by other scholars working in nonlinear dynamics, space plasma, and astrophysical modeling. Selected publications include:

  • Head-on collision of ion acoustic solitary waves in an electron-positron-ion plasma with super thermal electrons
    Journal: Physics of Plasmas
    Published on: 2010
    Citation: 144

  • Quantum ion acoustic shock waves in planar and nonplanar geometry
    Journal: Physics of Plasmas
    Published on: 2007
    Citation: 105

  • Nonextensive dust acoustic solitary and shock waves in nonplanar geometry
    Journal: Astrophysics and Space Science
    Published on: 2012
    Citation: 94

  • Exact solutions of cylindrical and spherical dust ion acoustic waves
    Journal: Physics of Plasmas
    Published on: 2003
    Citation: 78

  • Electron acoustic solitary waves and double layers with superthermal hot electrons
    Journal: Physics of Plasmas
    Published on: 2010
    Citation: 69

  • Electron acoustic solitons in a relativistic plasma with nonthermal electrons
    Journal: Physics of Plasmas
    Published on: 2006
    Citation: 66

  • Ion acoustic solitary waves and double layers with nonextensive electrons and thermal positrons
    Journal: Physics of Plasmas
    Published on: 2011
    Citation: 65

Conclusion

Prof. Biswajit Sahu’s academic career embodies a remarkable blend of teaching excellence, innovative research, and scientific leadership. His extensive work on nonlinear plasma dynamics and theoretical modeling has provided valuable insights into fundamental plasma processes relevant to astrophysics, space science, and applied plasma technologies. His role as a mentor, collaborator, and international contributor further enhances his standing as a thought leader in mathematics and physics. With his consistent achievements and scholarly impact, he stands as a highly deserving nominee for the Best Researcher Award, exemplifying both dedication and innovation in scientific research.