Bulbul Chakraborty
From Wikipedia, the free encyclopedia
Simons Fellow in Theoretical Physics (2018)
Fellow of the American Physical Society (2008)
Bulbul Chakraborty | |
|---|---|
 Chakraborty in 2026 | |
| Alma mater | Indian Institute of Technology State University of New York |
| Awards | Fellow of the American Association for the Advancement of Science (2020) Simons Fellow in Theoretical Physics (2018) Fellow of the American Physical Society (2008) |
| Scientific career | |
| Fields | Condensed matter physics Soft matter |
| Institutions | Brandeis University |
Bulbul Chakraborty is the Enid and Nate Ancell Professor of Physics at Brandeis University. She is recognized for her contributions to soft condensed matter theory studying systems far from equilibrium, such as granular materials, amorphous systems, and statistical physics. She was elected as a Member of the American Academy of Arts and Sciences in 2026, as a fellow of the American Association for the Advancement of Science in 2019 and a fellow of the American Physical Society in 2009.
Chakraborty graduated with a BSc in physics from the Indian Institute of Technology in 1974 and earned a PhD in 1979 from State University of New York, Stony Brook. The title of her PhD thesis is "Influence of thermal disorder on electronic properties of solids".[1] She was a postdoctoral fellow at Argonne National Laboratory, Nordic Institute for Theoretical Physics (NORDITA) in Denmark, and a research associate at the Indian Institute of Science. She was a Scientific Officer (equivalent of assistant professor) at the Materials Science Laboratory, Indira Gandhi Center for Atomic Research (1984–1986), and an Associate Research Physicist and Lecturer, in Applied Physics, at Yale University (1987–1989). Chakraborty joined the faculty in the Physics Department at Brandeis University in 1989, where she has been Full Professor since 2000.[2]
Research contributions
Chakraborty has made significant contributions to the understanding of the jamming transition in amorphous materials. Her group uses statistical frameworks to investigate the properties of shear-jammed[3][4] and densely packed particulate materials,[5][6][7] finding that elasticity and friction are correlated with athermal fluctuations in many disordered systems.[8]
According to Google Scholar, her publications have received over 6,000 citations and her h-index is 39.[9]
