P
Prabhat K. Jaiswal
Researcher at Indian Institute of Technology, Jodhpur
Publications - 35
Citations - 289
Prabhat K. Jaiswal is an academic researcher from Indian Institute of Technology, Jodhpur. The author has contributed to research in topics: Spinodal decomposition & Wetting. The author has an hindex of 9, co-authored 31 publications receiving 241 citations. Previous affiliations of Prabhat K. Jaiswal include University of Mainz & Jawaharlal Nehru University.
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Mechanical Yield in Amorphous Solids: A First-Order Phase Transition.
TL;DR: It is argued here that there is no fundamental difference in the states of matter before and after yield, but the yield is a bona fide first-order phase transition between a highly restricted set of possible configurations residing in a small region of phase space to a vastly rich set of configurations which include many marginally stable ones.
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Stochastic Approach to Plasticity and Yield in Amorphous Solids
TL;DR: The PDF's of both Δγ and λ are not continuous functions of γ, and the nature of these transitions and scaling relations with the system size dependence of 〈Δγ〉 are discussed.
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Shear Transformation Zones: State determined or protocol dependent?
TL;DR: In this article, the authors present strong evidence that the latter is the case and that even small changes of protocol result in macroscopically big jumps in the positions of plastic events, meaning that these can never be predicted from considering the unloaded material.
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Shear Transformation Zones: State Determined or Protocol Dependent?
TL;DR: In this article, the authors present strong evidence that the latter is the case and that even small changes of protocol result in macroscopically big jumps in the positions of plastic events, meaning that these can never be predicted from considering the unloaded material.
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Kinetics of spinodal phase separation in unstable thin liquid films.
Rajesh Khanna,Narendra Kumar Agnihotri,Manish Vashishtha,Ashutosh Sharma,Prabhat K. Jaiswal,Sanjay Puri +5 more
TL;DR: It is shown that, in addition to morphology and free energy, the number density of local maxima in the film profile can also be used to identify the early, late, and intermediate stages of spinodal phase separation.