Dr. Basanta Das began his academic journey with a deep interest in Condensed Matter Physics, which laid the foundation for his research career. His early studies focused on advanced materials and experimental physics, leading him to explore specialized areas such as Hydrogen Storage Materials, Non-Evaporable Getters, and Ultra-High Vacuum Systems. With a strong foundation in both theoretical and experimental physics, he pursued research that would later contribute significantly to the development of vacuum devices and plasma systems.
💼 Professional Endeavors
With 28 years of extensive scientific experience, Dr. Basanta Das has worked on several critical projects involving low-temperature plasma, ion sources, neutron generators, and nano-particle generation. His expertise spans multiple disciplines, particularly in working with complex scientific machines like TOKAMAK, where he has spent a decade studying plasma interactions and developing cutting-edge technology. His role in studying Hydrogen Storage Materials has been particularly impactful in energy research, helping to advance sustainable hydrogen-based energy solutions.
🔬 Contributions and Research Focus
Dr. Das has made significant contributions to multiple fields, including Hydrogen Storage Materials, cold plasma research, and ultra-high vacuum systems. His research has focused on improving particle sources (electron, ion, neutron) and sealed-off vacuum devices, which are essential for various industrial and scientific applications. Notably, his poster presentations at prestigious international conferences, such as the 18th International Symposium on Ion Beam Analysis (2007) and the IEEE Nuclear Science Symposium (2008), have demonstrated his influence in the field. His research on neutron flux measurement and nano-particle generation has provided essential insights into material science and plasma physics.
🌍 Impact and Influence
Dr. Basanta Das's work has had a far-reaching impact on experimental physics, particularly in the development of advanced materials and plasma technologies. His expertise in Hydrogen Storage Materials has influenced research on sustainable energy solutions, while his contributions to ion source technology have advanced applications in medical imaging, nuclear science, and material characterization. His research findings, presented at international conferences, have shaped the understanding of particle interactions with matter and improved neutron generation techniques.
🏆Academic Cites
Dr. Das’s extensive research has led to numerous citations in high-impact journals and conference proceedings. His work on Hydrogen Storage Materials, thin-film interactions, and ultra-high vacuum systems is frequently referenced by researchers worldwide. His collaboration with esteemed scientists on projects such as the selection of proper plasma electrode geometry for penning ion sources and nano-powder generation through electrical explosion of wires has established him as a leading figure in the scientific community.
🌟 Legacy and Future Contributions
As Dr. Basanta Das continues his research, his future contributions are expected to further enhance the understanding of Hydrogen Storage Materials, cold plasma interactions, and vacuum systems. His ongoing efforts in neutron flux measurement and plasma ion source development will play a crucial role in advancing clean energy and experimental physics. His legacy is marked by his dedication to scientific innovation, mentorship, and contributions to the global research community. His influence will continue to inspire future generations of physicists and engineers in the pursuit of advanced material and plasma science research.
📝Hydrogen Storage Materials
Dr. Basanta Das has made significant contributions to the study of Hydrogen Storage Materials, influencing energy research and material science. His experimental work on Hydrogen Storage Materials has improved energy efficiency and material durability. The future of Hydrogen Storage Materials research will continue to benefit from his pioneering efforts in plasma systems and vacuum technology.
Notable Publication
📝Development of compact size Penning ion source for compact neutron generator
Authors: B.K. Das, A. Shyam
Journal: Review of Scientific Instruments
Year: 2008
Citations: 54
📝Low voltage operation of plasma focus
Authors: R. Shukla, S.K. Sharma, P. Banerjee, R. Das, P. Deb, T. Prabahar, B.K. Das, ...
Journal: Review of Scientific Instruments
Year: 2010
Citations: 26
📝Development of hollow anode Penning ion source for laboratory application
Authors: B.K. Das, A. Shyam, R. Das, A.D.P. Rao
Journal: Nuclear Instruments and Methods in Physics Research Section A: Accelerators
Year: 2012
Citations: 25
📝Analysis of electrical explosion of wire systems for the production of nanopowder
Authors: R. Das, B.K. Das, R. Shukla, T. Prabaharan, A. Shyam
Journal: Sadhana
Year: 2012
Citations: 24
📝Improvement of plasma performance with lithium wall conditioning in Aditya tokamak
Authors: M.B. Chowdhuri, R. Manchanda, J. Ghosh, S.B. Bhatt, A. Kumar, B.K. Das, ...
Journal: Plasma Science and Technology
Year: 2013
Citations: 23
📝Characterization of high power microwave radiation by an axially extracted vircator
Authors: R. Verma, R. Shukla, S.K. Sharma, P. Banerjee, R. Das, P. Deb, T. Prabaharan, ...
Journal: IEEE Transactions on Electron Devices
Year: 2013
Citations: 17
📝Measurement of 14 MeV neutron flux from DT neutron generator using activation analysis
Authors: S. Jakhar, C.V.S. Rao, A. Shyam, B. Das
Journal: 2008 IEEE Nuclear Science Symposium Conference Record
Year: 2008
Citations: 14