Invited talk by Paolo Arratia, Penn Complex Fluids Lab, Penn State, Philadelphia
Invited Talk Strathclyde Mathematics & Statistics, hosted by Debasish Das
Some of the papers mentioned:
- Q. Brosseau, R. Ran, I. Graham, D.J. Jerolmack, and P.E. Arratia, “Flow and aerosol dispersion from wind musical instruments”, Physics of Fluids 34, 087115 (2022) https://doi.org/10.1063/5.0098273
- Purcell 1977 Life at Low Reynold's Number Am J Physics
- P.E. Arratia, "Life in complex fluids: Swimming in polymers", Physical Review Fluids 7, 110515 (2022) https://doi.org/10.1103/PhysRevFluids.7.110515
- R. Ran, Q. Brosseau, B.C. Blackwell, B. Qin, R.L. Winter, and P.E. Arratia, “Mixing in chaotic flows with swimming bacteria”, Physical Review Fluids 7, 110511 (2022) https://doi.org/10.1103/PhysRevFluids.7.110511
- B. Qin, R. Ran, P. F. Salipante, S. D. Hudson, P. E. Arratia, "Three-dimensional structures and symmetry breaking in viscoelastic cross-channel flow", Soft Matter 16, (2020) https://doi.org/10.1039/D0SM00555J
- M Brust, C Schaefer, R Doerr, L Pan, M Garcia, PE Arratia, C Wagner Physical review letters 110 (7), 078305 2013 Rheology of human blood plasma: Viscoelastic versus Newtonian behavior
- XN Shen, PE Arratia Physical Review letters 106 (20), 20810 2011 Undulatory swimming in viscoelastic fluids
- Sznitman, PK Purohit, P Krajacic, T Lamitina, PE Arratia Biophysical journal 98 (4), 617-626 2010 Material properties of Caenorhabditis elegans swimming at low Reynolds number
- J Sznitman, X Shen, R Sznitman, PE Arratia 2010 Physics of Fluids 22 (12) Propulsive force measurements and flow behavior of undulatory swimmers at low Reynolds number
- DA Gagnon, NC Keim, PE Arratia Journal of Fluid Mechanics 758, R3 2014 Undulatory swimming in shear-thinning fluids: experiments with Caenorhabditis elegans
- K Han, CW Shields IV, B Bharti, PE Arratia, OD Velev Langmuir 36 (25), 7148-7154: Active reversible swimming of magnetically assembled “microscallops” in non-newtonian fluids 2020
- A. E. Patteson, A. Gopinath, M. Goulian & P. E. Arratia: Running and tumbling with E. coli in polymeric solutions, Sci Rep 5:15761 | DOi: 10.1038/srep15761
BTW: Nice connection (via Life at Low Reynold's number & time reversal of shear based mixing in a non-Newtonian fluid) with Yusuke Toyama's recent talk at the FEBS School on Mechanobiology.