Surajit Sen
Actor
Surajit Sen (born November 28, 1960 in Calcutta (modern name Kolkata) in India) is a physicist who works on theoretical and computational problems in non-equilibrium statistical physics and in nonlinear dynamics of many body systems. He holds a Ph.D in physics from The University of Georgia (1990) where he studied with M. Howard Lee. He is also interested in applying physics to study problems of relevance in a societal context. He is a professor of physics at the State University of New York, Buffalo. Sen is credited with developing an exact solution for the Heisenberg equation of motion in a quantum mechanical many body system in 1991. His studies include work on how solitary waves travel in alignments of elastic beads, on how they interact with one another and how these systems tend to reach an energy equipartitioned state. In 1997, he investigated the possible use of sound bursts in detecting buried small landmines. In 2001, he introduced the tapered granular chain impact dispersion system, which has since been extensively probed. Sen has recently suggested that nonlinear systems may be used to extract mechanical energy from noisy environments and make them into useful energy. Sen's group has used cellular automata based simulations to model land battles between an insurgent army and an intelligent army and used molecular dynamics based simulations to examine the social structure of chimpanzee colonies. Sen was elected a Fellow of the American Physical Society in 2008, for the discovery of how solitary waves break and secondary solitary waves form in granular media, for his leadership in organizing forums to represent and recognize the physicists from India and for raising consciousness about the problems and the importance of rural science education in India and the developing world. He was also elected a Fellow of the American Association for the Advancement of Science in 2012 for pioneering research on solitary waves and their collisions in granular media and for sustained outstanding service and leadership in international physics.
Surajit Sen (born November 28, 1960 in Calcutta (modern name Kolkata) in India) is a physicist who works on theoretical and computational problems in non-equilibrium statistical physics and in nonlinear dynamics of many body systems. He holds a Ph.D in physics from The University of Georgia (1990) where he studied with M. Howard Lee. He is also interested in applying physics to study problems of relevance in a societal context. He is a professor of physics at the State University of New York, Buffalo.
Sen is credited with developing an exact solution for the Heisenberg equation of motion in a quantum mechanical many body system in 1991. His studies include work on how solitary waves travel in alignments of elastic beads, on how they interact with one another and how these systems tend to reach an energy equipartitioned state. In 1997, he investigated the possible use of sound bursts in detecting buried small landmines. In 2001, he introduced the tapered granular chain impact dispersion system, which has since been extensively probed. Sen has recently suggested that nonlinear systems may be used to extract mechanical energy from noisy environments and make them into useful energy. Sen's group has used cellular automata based simulations to model land battles between an insurgent army and an intelligent army and used molecular dynamics based simulations to examine the social structure of chimpanzee colonies.
Sen was elected a Fellow of the American Physical Society in 2008, for the discovery of how solitary waves break and secondary solitary waves form in granular media, for his leadership in organizing forums to represent and recognize the physicists from India and for raising consciousness about the problems and the importance of rural science education in India and the developing world. He was also elected a Fellow of the American Association for the Advancement of Science in 2012 for pioneering research on solitary waves and their collisions in granular media and for sustained outstanding service and leadership in international physics.
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