Dr. Himanshu Kumar's academic journey began with a strong foundation in physics and computational sciences. He earned his BSc in Physics from Vinobha Bhave University, Jharkhand, India (1993-1996), followed by an Advanced Diploma in Information Systems from Oxford Software Institute, Delhi, India (1996-1998). His interdisciplinary approach to science and technology was further strengthened when he pursued PGDITM (Equivalent to MSc in Management and Information) at AIMA, Delhi, India (1998-2002). His passion for physics led him to earn an MSc in Physics from Jamia Millia Islamia University, Delhi, India (2002-2004), culminating in a PhD in Physics from the same institution (2007-2014). These formative years provided him with a deep understanding of both theoretical and computational physics, laying the groundwork for his future contributions to the field.

 Professional Endeavors

Dr. Himanshu Kumar has an extensive teaching career spanning over two decades. His professional endeavors post-PhD include roles such as Adjunct Professor at Delhi Technological University (2024-Present) and Affiliated Faculty at the School of Physics, Damghan University, Iran (2023-Present). Previously, he was an Assistant Professor at Delhi University (2016-2023), NSUT University (2014-2016), and Lingaya University (2013-2014). Before earning his PhD, he served as a Senior Lecturer at Skyline Institute of Engineering and Technology, Greater Noida (2006-2010). His extensive teaching portfolio covers a wide range of physics, computer science, and mathematics courses, including Computational Physics, Cosmology, Classical Mechanics, Solid State Physics, and Engineering Physics. His high student evaluation scores across multiple institutions reflect his dedication to quality education.

 Contributions and Research Focus

Dr. Kumar’s primary research focus is on Computational Physics, where he specializes in modeling complex physical systems both analytically and numerically. He has published five papers in high-impact journals, with an additional three papers on arXiv and three more in communication. His research contributions extend beyond publication; he has delivered six talks at various conferences, showcasing his expertise in computational methodologies. His research integrates physics, computer science, and mathematical modeling, pushing the boundaries of how computational techniques can be applied to physical phenomena.

 Impact and Influence

Dr. Kumar’s impact is felt both in academia and in the broader field of computational sciences. His contributions to Computational Physics have influenced students, researchers, and institutions, leading to significant advancements in numerical modeling techniques. He has mentored six students in summer research programs, guiding them toward groundbreaking discoveries in the field. His role as a researcher and educator has enabled him to shape the next generation of physicists and computational scientists.

Academic Cites

Dr. Himanshu Kumar's research has received recognition and citations in high-impact scientific journals, indicating the significance of his work in Computational Physics. His contributions are frequently referenced by other researchers working on computational models in physics, numerical analysis, and theoretical simulations. His involvement in various conferences has further solidified his reputation as a thought leader in the field.

 Legacy and Future Contributions

Looking ahead, Dr. Kumar aims to continue his pioneering work in Computational Physics, further refining numerical methods and developing innovative models to solve complex physical problems. His future contributions are expected to influence emerging areas of research, particularly in computational modeling and simulation. Through continued mentorship, research, and teaching, he will leave a lasting impact on both academic and applied physics, ensuring his legacy as a key figure in the advancement of computational methodologies.

Computational Physics

Dr. Himanshu Kumar’s extensive contributions to Computational Physics have advanced the field by integrating analytical and numerical modeling techniques. His research in Computational Physics has resulted in high-impact publications and significant academic recognition. The future of Computational Physics is set to benefit from his continued work in developing innovative computational models for complex physical systems.

Notable Publication

Quantum gravitational corrections to the geometry of charged AdS black holes

Authors: Behnam Pourhassan, Ruben Campos Delgado, Sudhaker Upadhyay, Hoda Farahani, Himanshu Kumar

Journal: Nuclear Physics, Section B

Year: 2025

Citations: 0