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Toward Genetic Engineering: Teaching Transformation Using the pGLO Plasmid in High School ClassroomsKovash, Isaac; Hossain, Tahmina; Roy, Sudeshna; Mitchell, Michael; Nepal, Madhav; Butzin, Nicholas (, ILEARN Teaching Resources)
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Nelson, Lukas; Roy, Sudeshna; Bohnet, Bobbi; Chase, Tracy; LaBelle, Brian; Butzin, Nicholas; Nepal, Madhav (, ILEARN Teaching Resources)
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Morse, Peter K.; Roy, Sudeshna; Agoritsas, Elisabeth; Stanifer, Ethan; Corwin, Eric I.; Manning, M. Lisa (, Proceedings of the National Academy of Sciences)null (Ed.)The similarity in mechanical properties of dense active matter and sheared amorphous solids has been noted in recent years without a rigorous examination of the underlying mechanism. We develop a mean-field model that predicts that their critical behavior—as measured by their avalanche statistics—should be equivalent in infinite dimensions up to a rescaling factor that depends on the correlation length of the applied field. We test these predictions in two dimensions using a numerical protocol, termed “athermal quasistatic random displacement,” and find that these mean-field predictions are surprisingly accurate in low dimensions. We identify a general class of perturbations that smoothly interpolates between the uncorrelated localized forces that occur in the high-persistence limit of dense active matter and system-spanning correlated displacements that occur under applied shear. These results suggest a universal framework for predicting flow, deformation, and failure in active and sheared disordered materials.more » « less
