Praveen Kumar Dhankar | Particle physics and cosmology | Research Excellence Award

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Dr. Praveen Kumar Dhankar | Particle physics and cosmology | Research Excellence Award

Symbiosis Institute of Technology, India

Dr. Praveen Kumar Dhankar is an emerging researcher recognized for his valuable academic and scientific contributions in cosmology, modified gravity theories, and applied machine learning. Affiliated with Symbiosis Institute of Technology, he has demonstrated consistent research productivity through publications in reputed international journals. His scholarly profile reflects 40 documents, 78 citations, and an h-index of 5, highlighting growing academic influence within interdisciplinary scientific domains. His recent investigations in Gauss–Bonnet gravity, f(G) cosmology, and observational astrophysics showcase analytical expertise and strong computational understanding. In addition, his work connecting machine learning with precision agriculture illustrates research versatility and practical innovation. Through continuous engagement in advanced theoretical studies and collaborative scientific publications, Dr. Dhankar has established himself as a dedicated researcher contributing to modern developments in physics, cosmology, and data-driven applications with promising future research potential.

Professional Profile

Education

Dr. Praveen Kumar Dhankar has developed a strong academic foundation through dedicated study in physics, computational sciences, and interdisciplinary technological applications. His educational journey reflects a deep commitment to understanding theoretical cosmology, modified gravity theories, and modern data-driven scientific methodologies. Through advanced academic training, he acquired expertise in analytical modeling, observational data interpretation, statistical techniques, and machine learning applications in scientific research. His educational background has enabled him to work effectively across diverse scientific domains, combining theoretical understanding with computational innovation. Continuous engagement with emerging scientific developments has strengthened his academic profile and expanded his technical competencies in cosmological simulations and predictive analysis. His educational preparation demonstrates intellectual curiosity, scientific discipline, and the capacity to contribute meaningfully to modern research challenges. This strong academic grounding has become the basis for his growing influence in theoretical physics and interdisciplinary computational investigations.

Professional Experience

Dr. Praveen Kumar Dhankar possesses valuable professional and research experience through his academic association with Symbiosis Institute of Technology and collaborative scientific projects. His experience spans theoretical cosmology, modified gravity investigations, computational data analysis, and interdisciplinary technological applications. Over the years, he has actively participated in scholarly collaborations, contributing to scientific discussions involving cosmological constraints, observational datasets, and astrophysical modeling. His research activities demonstrate proficiency in statistical tools, including MCMC methods, which are widely applied in modern cosmological investigations. Furthermore, Dr. Dhankar has explored practical technological implementations through machine learning-based agricultural prediction systems, showcasing multidimensional professional capabilities. His academic profile includes 40 published documents and collaborations with numerous co-authors, reflecting strong engagement within the research community. Through consistent publication efforts, conference participation, and interdisciplinary contributions, he has developed an impressive professional portfolio that combines theoretical expertise, computational proficiency, and innovative research thinking in both physical sciences and applied technological domains.

Research Interest

Dr. Praveen Kumar Dhankar focuses his research on modern cosmology, modified gravity theories, observational astrophysics, and computational modeling. His scientific interests particularly emphasize f(G) gravity, Gauss–Bonnet gravity, dark energy models, and cosmological parameter estimation using advanced statistical techniques. He actively investigates the compatibility of theoretical cosmological models with observational datasets such as DESI BAO measurements and multi-fluid cosmological systems. His research demonstrates a strong commitment to understanding the accelerated expansion of the universe and alternative explanations beyond conventional cosmological frameworks. Additionally, Dr. Dhankar explores interdisciplinary applications involving machine learning and predictive analytics, especially within precision agriculture and intelligent recommendation systems. His work combines theoretical formulation, numerical simulation, and data-driven interpretation to address complex scientific challenges. With 40 research documents, 78 citations, and an h-index of 5, his evolving research profile reflects growing influence in cosmology and computational science while highlighting his dedication to advancing innovative, interdisciplinary, and evidence-based scientific investigations.

Award and Honor

Dr. Praveen Kumar Dhankar has earned growing academic recognition through his impactful scientific publications, collaborative research contributions, and consistent scholarly productivity. His Scopus-indexed profile demonstrates notable research visibility with 40 published documents, 78 citations received from 55 documents, and an h-index of 5, reflecting meaningful influence within the scientific community. His publications in reputed journals such as Physics of the Dark Universe and European Physical Journal C signify professional acknowledgment of his research quality and scientific relevance. Dr. Dhankar’s contributions to modified gravity theories, cosmological modeling, and machine learning applications have strengthened his academic reputation among interdisciplinary researchers. His collaborations with numerous co-authors and participation in contemporary research initiatives further highlight his professional credibility. Although his career continues to evolve, the measurable impact of his publications and research activities positions him as a promising scholar deserving recognition for scientific excellence, innovative thinking, and dedication toward advancing modern theoretical and computational research methodologies.

Conclusion

Dr. Praveen Kumar Dhankar represents a promising and dedicated researcher whose academic journey reflects strong commitment to scientific advancement, interdisciplinary innovation, and scholarly excellence. His educational background, professional experience, and focused research contributions have enabled him to build a meaningful presence within cosmology, theoretical physics, and computational applications. With 40 research documents, 78 citations, and an h-index of 5, he has demonstrated measurable research impact and growing recognition within international scientific communities. His investigations in modified gravity theories, observational cosmology, and machine learning applications illustrate both analytical depth and practical research versatility. Through continuous publication efforts, collaborative engagements, and innovative scientific exploration, Dr. Dhankar continues to strengthen his academic reputation and future research potential. His dedication to advancing knowledge, solving complex scientific challenges, and integrating computational methodologies into interdisciplinary studies establishes him as a valuable contributor to contemporary scientific research and an emerging leader in modern theoretical and applied sciences.

Publications Top Notes

Title: Interaction of divergence-free deceleration parameter in Weyl-type f (Q, T) gravity
Authors: GN Gadbail, S Arora, P Kumar, PK Sahoo
Year: 2022
Citation: 25

Title: Modified Chaplygin gas with bulk viscous cosmology in FRW (2+ 1)-dimensional spacetime
Authors: GS Khadekar, P Kumar, S Islam
Year: 2019
Citation: 12

Title: Quantum-enhanced AI robotics for sustainable agriculture: Pioneering autonomous systems in precision farming
Authors: P Khobragade, PK Dhankar, A Titarmare, M Dhone, S Thakur, P Saraf
Year: 2024
Citation: 10

Title: Advancing Oncology Outcomes: Deploying Advanced Machine Learning Models for Early Detection and Optimized Treatment
Authors: P Khobragade, PK Dhankar, M Motghare, A Golghate, N Rakesh
Year: 2024
Citation: 10

Title: (2+ 1) dimensional cosmological models in f (R, T) gravity with (R, T)
Authors: S Islam, P Kumar, GS Khadekar, TK Das
Year: 2019
Citation: 10

Dr. Abdul Basit | Theoretical Physics | Best Researcher Award

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Dr. Abdul Basit | Theoretical Physics | Best Researcher Award

University of Sharjah, United Arab Emirates

Dr. Rishi Kumar Tiwari is a distinguished Professor of Mathematics with over 30 years of academic service, currently holding a post secured through the Madhya Pradesh Public Service Commission (2011). He earned his Ph.D. in Mathematics from A.P.S. University, Rewa, in 1998, following an M.Sc. with a Gold Medal. With a prolific research portfolio including 134 national and international publications and six authored books, he has supervised 21 Ph.D. scholars and continues to guide research in cosmology, general relativity, and differential geometry. Dr. Tiwari has presented his work globally, including in Italy, Germany, and South Africa, contributing to international scientific collaborations. His accolades include the DST-ICTP Fellowship (Italy), IASc-INSA-NASI Summer Research Fellowship, and the Shikshavid Samman (2023). Having served as Head of Departments and on multiple academic boards, Dr. Tiwari remains committed to advancing mathematics through education, research, and international cooperation in theoretical physics and cosmology.

Professional Profile 

Education 

Dr. Rishi Kumar Tiwari holds a strong academic background in science and mathematics. He completed his Higher Secondary education from the Board of Secondary Education, Bhopal, in 1985 with a focus on Physics, Chemistry, and Mathematics, securing 70.7%. He earned his B.Sc. from A.P.S. University, Rewa, in 1988 with 73.3%, and later completed his M.Sc. in Mathematics from the same university in 1990, earning an outstanding 84%, which earned him a Gold Medal. He was awarded a Ph.D. in Mathematics from A.P.S. University in 1998. His doctoral work laid the foundation for a research career focused on general relativity, cosmological modeling, and tensor analysis. Dr. Tiwari’s academic credentials reflect a consistent record of academic excellence and deep subject mastery, serving as the cornerstone for his teaching, research, and scholarly contributions to the field of mathematics and cosmology over the last three decades.

Professional Experience 

Dr. Rishi Kumar Tiwari brings with him over 30 years of extensive teaching experience at both undergraduate and postgraduate levels. He has held several significant academic leadership roles, including Head of the Department of Mathematics and Computer Science at Pt. S.N. Shukla University, Shahdol, and formerly at Govt. Model Science College, Rewa. He has also been a member of various Boards of Studies across reputed institutions like A.P.S. University and Govt. T.R.S. College, Rewa. Selected through the M.P. Public Service Commission in 2011, Dr. Tiwari has not only imparted knowledge but also shaped curricula and research agendas. Under his mentorship, 21 Ph.D. scholars have completed their doctorates, with others currently under supervision. His ability to blend deep mathematical theory with modern cosmological applications makes him a respected academic figure in India. He continues to engage students and researchers in exploring advanced topics in mathematical physics.

Research Interest 

Dr. Tiwari’s research interest lies primarily in the fields of General Relativity, Cosmology, Tensor Analysis, and Differential Geometry, with a particular emphasis on exploring homogeneous cosmological models and conharmonic curvature tensors. His contributions to understanding the expanding universe and dark energy models have been presented at premier international conferences, including the TAUP Series and the Texas Symposium on Relativistic Astrophysics. With 134 research papers in reputed journals and conferences, Dr. Tiwari has carved a niche in the academic study of mathematical models underpinning astrophysical phenomena. His involvement in UGC-funded research projects on Bianchi Models and Robertson-Walker cosmologies illustrates his commitment to foundational and applied research. Collaborating with institutions in South Africa and Europe, he frequently shares findings on time-varying deceleration parameters and symmetry models. His international exposure and research depth continue to influence global discussions on theoretical physics and contribute to the development of cosmological theory.

Award and Honor 

Throughout his illustrious career, Dr. Rishi Kumar Tiwari has received several awards and fellowships that affirm his academic excellence and research impact. He was awarded the DST-ICTP Fellowship (Italy, 2008), recognizing his work in mathematical physics. In 2012, he received the prestigious IASc-INSA-NASI Summer Research Fellowship, further solidifying his standing in the Indian scientific community. His most recent recognition, the Shikshavid Samman from the Department of Higher Education, Madhya Pradesh (2023), honors his decades-long contribution to higher education and mentorship in mathematics. Additionally, Dr. Tiwari has received two major UGC research grants for his projects on cosmological models. These accolades, combined with invitations for popular and technical talks at institutions like the University of KwaZulu-Natal and Mangosuthu University in South Africa, showcase his international academic reputation. His dedication to theoretical exploration and student development continues to garner respect and admiration in the fields of mathematics and cosmology.

Publications Top Notes

  • Title: Protecting quantum coherence and discord from decoherence of depolarizing noise via weak measurement and measurement reversal
    Authors: A. Basit, F. Badshah, H. Ali, G.Q. Ge
    Year: 2017
    Citations: 23
    Source: Europhysics Letters, Vol. 118 (3), 30002

  • Title: Traversable Wormhole in f(Q) Gravity Using Conformal Symmetry
    Authors: M. Jan, A. Ashraf, A. Basit, A. Caliskan, E. Güdekli
    Year: 2023
    Citations: 21
    Source: Symmetry, Vol. 15 (4), 859

  • Title: Controlling sudden transition from classical to quantum decoherence via non-equilibrium environments
    Authors: A. Basit, H. Ali, F. Badshah, X.F. Yang, G.Q. Ge
    Year: 2020
    Citations: 17
    Source: New Journal of Physics, Vol. 22 (3), 033039

  • Title: Enhancement of quantum correlations in qubit-qutrit systems under the non-Markovian environment
    Authors: A. Basit, H. Ali, F. Badshah, G.Q. Ge
    Year: 2017
    Citations: 15
    Source: Communications in Theoretical Physics, Vol. 68 (1), 29

  • Title: Nonequilibrium effects on one-norm geometric correlations and the emergence of a pointer-state basis in the weak-and strong-coupling regimes
    Authors: A. Basit, H. Ali, F. Badshah, X.F. Yang, G. Ge
    Year: 2021
    Citations: 14
    Source: Physical Review A, Vol. 104 (4), 042417

  • Title: Manipulating the tunneling of ultracold atoms through a mazer cavity via vacuum-multiparticle interactions
    Authors: F. Badshah, A. Basit, H. Ali, G.Q. Ge
    Year: 2017
    Citations: 11
    Source: Laser Physics Letters, Vol. 14 (2), 025205

  • Title: Thermal fluctuations, QNMs, and emission energy of charged ADS black hole with nonlinear electrodynamics
    Authors: F. Javed, A. Basit, A. Caliskan, E. Güdekli
    Year: 2023
    Citations: 10
    Source: Frontiers in Astronomy and Space Sciences, Vol. 10, 1174029

  • Title: Quantum state transfer between nitrogen vacancy centers coupled to photonic crystal molecule in the off-resonant regime
    Authors: H. Ali, A. Basit, F. Badshah, G.Q. Ge
    Year: 2018
    Citations: 8
    Source: Physica E: Low-dimensional Systems and Nanostructures, Vol. 104, 261–267

  • Title: Time-invariant discord and steady-state entanglement in engineered non-equilibrium dephasing environments
    Authors: A. Basit, H. Ali, X.F. Yang, G.Q. Ge
    Year: 2021
    Citations: 6
    Source: Physica Scripta, Vol. 96 (7), 075105

  • Title: Controlling sudden transition between classical and quantum decoherence via squeezing phase of the baths
    Authors: A. Basit, H. Ali, F. Badshah, X.F. Yang, G.Q. Ge
    Year: 2021
    Citations: 6
    Source: Laser Physics Letters, Vol. 18 (6), 065202

  • Title: Novel transparency, absorption and amplification in a driven optomechanical system with a two-level defect
    Authors: Q. He, F. Badshah, H. Zhang, H. Ali, A. Basit, Y. Hu, G.Q. Ge
    Year: 2019
    Citations: 6
    Source: Laser Physics Letters, Vol. 16 (3), 035202

  • Title: Dynamics and protection of quantum discord via cavity engineering
    Authors: A. Basit, H. Ali, F. Badshah, H. Zhang, G.Q. Ge
    Year: 2017
    Citations: 6
    Source: Laser Physics Letters, Vol. 14 (12), 125202

  • Title: Effects of reservoir squeezing on trace-distance correlations and emergence of the pointer basis
    Authors: A. Basit, H. Ali, P.B. Li, G. Xianlong
    Year: 2023
    Citations: 5
    Source: Physical Review A, Vol. 107 (4), 042432

  • Title: Quantum state transfer between nitrogen vacancy center ensembles in hybrid quantum system
    Authors: H. Ali, A. Basit, F. Badshah, M. Qurban, G.Q. Ge
    Year: 2019
    Citations: 5
    Source: Europhysics Letters, Vol. 127 (3), 30007

  • Title: Propagation of the probe field through a chiral medium with four-level atoms
    Authors: F. Badshah, A. Basit, H. Ali, H. Zhang, Q. He, G.Q. Ge
    Year: 2019
    Citations: 5
    Source: Laser Physics Letters, Vol. 16 (3), 035201

Conclusion 

Dr. Rishi Kumar Tiwari stands as a paragon of dedication, intellect, and international engagement in the realm of mathematical sciences. From earning a Gold Medal in his master’s studies to mentoring 21 Ph.D. scholars and producing an expansive body of scholarly work, he exemplifies the ideals of academic leadership. His prolific research, particularly in the areas of general relativity and cosmological modeling, has transcended national borders, earning him respect across continents. Participation in global scientific platforms and collaborations with African and European institutions underline his commitment to knowledge exchange and cross-cultural academic growth. With multiple leadership roles in universities and active contributions to curriculum development and academic governance, Dr. Tiwari continues to shape the future of mathematical education and research in India. His legacy is built not only on research excellence but also on his lifelong mission to inspire, educate, and innovate in the ever-evolving landscape of mathematical physics.