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200 13$aLe terze rime de Dante con sito, et forma de lo inferno nouamente in restampito$b[electronic resource]
210   $aVenice $cGregorio de' Gregori, fl. 1480-1528$d1515
215   $aOnline resource ([250] c., 8°.)
300   $aReproduction of original in Biblioteca Nazionale Centrale di Firenze.
700   $aAlighieri$b Dante $f1265-1321.$038904
701   $aGregori$b Gregorio de'$factive 1480-1528.$0915107
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024 7 $a10.1007/978-3-031-67636-9
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200 10$aControlling Mesoscale Turbulence $eThe Impact of Translational and Rotational Constraints on Pattern Formation in Microswimmer Suspensions /$fby Henning Reinken
205   $a1st ed. 2024.
210  1$aCham :$cSpringer Nature Switzerland :$cImprint: Springer,$d2024.
215   $a1 online resource (233 pages)
225 1 $aSpringer Theses, Recognizing Outstanding Ph.D. Research,$x2190-5061
311 08$a3-031-67635-1 
327   $aIntroduction -- Theoretical Concepts -- Derivation of a Continuum Theory -- Unconstrained Mesoscale Turbulence -- Reorienting External Fields -- Obstacle Lattices,- Conclusions and Outlook -- Appendix.
330   $aThis thesis combines methods from statistical physics and nonlinear dynamics to advance research on the pattern formation in active fluids in several directions. In particular, it focuses on mesoscale turbulence, a state observed in microswimmer suspensions, which is characterized by the emergence of dynamic vortex patterns. The first major contribution concerns the bottom-up derivation of a frequently used continuum model of mesoscale turbulence from a set of particle-resolved stochastic equations. Utilizing the model, mesoscale turbulence is shown to induce nontrivial transport properties including a regime of optimal diffusion. The thesis then explores possible strategies of control. One of these relies on an external field that leads to stripe-like structures and can even suppress patterns entirely. The other involves geometric confinement realized by strategically placed obstacles that can reorganize the flow into a variety of ordered vortex structures. The turbulence transition inside an obstacle lattice is shown to have an intriguing analogy to an equilibrium transition in the Ising universality class. As a whole, this thesis provides important contributions to the understanding and control of turbulence in active fluids, as well as outlining exciting future directions, including applications. It includes a substantial introduction to the topic, which is suitable for newcomers to the field.
410  0$aSpringer Theses, Recognizing Outstanding Ph.D. Research,$x2190-5061
606   $aSoft condensed matter
606   $aColloids
606   $aStatistical physics
606   $aSystem theory
606   $aSoft Materials
606   $aColloids
606   $aStatistical Physics
606   $aComplex Systems
606   $aFluids
615  0$aSoft condensed matter.
615  0$aColloids.
615  0$aStatistical physics.
615  0$aSystem theory.
615 14$aSoft Materials.
615 24$aColloids.
615 24$aStatistical Physics.
615 24$aComplex Systems.
615 24$aFluids.
676   $a620.19
700   $aReinken$b Henning$01772200
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996   $aControlling Mesoscale Turbulence$94272679
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