Modeling Active Composites
ORAL
Abstract
Soft materials embedded in an active fluid exhibit emergent dynamics and self-organization unseen in their passive counterparts. However, the behaviors of these "active composites" result from processes acting over a wide range of length and time scales and are hence challenging to understand. We create multiscale models of such active composites and use theory and computer simulations to explore their behaviors. Our framework sheds light on pattern formation in active composites and may inform efforts to design and control such materials.
*This work was supported by the Department of Energy (DOE) DE-SC0022291. Preliminary data and analysis were supported by the Brandeis Center for Bioinspired Soft Materials, an NSF MRSEC (DMR-2011846). Computing resources were provided by the NSF XSEDE allocation TG-MCB090163 and the Brandeis HPCC which is partially supported by the NSF through DMR-MRSEC 2011846 and OAC-1920147.
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Presenters
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Layne B Frechette
- Brandeis University