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Time-Symmetry Breaking in Turbulent Multi-Particle Dispersion PDF

121 Pages·2015·9.824 MB·English
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Springer Theses Recognizing Outstanding Ph.D. Research Jennifer Jucha Time-Symmetry Breaking in Turbulent Multi- Particle Dispersion Springer Theses Recognizing Outstanding Ph.D. Research Aims and Scope The series “Springer Theses” brings together a selection of the very best Ph.D. theses from around the world and across the physical sciences. Nominated and endorsed by two recognized specialists, each published volume has been selected foritsscientificexcellenceandthehighimpactofitscontentsforthepertinentfield of research. For greater accessibility to non-specialists, the published versions includeanextendedintroduction,aswellasaforewordbythestudent’ssupervisor explainingthespecialrelevanceoftheworkforthefield.Asawhole,theserieswill provide a valuable resource both for newcomers to the research fields described, and for other scientists seeking detailed background information on special questions. Finally, it provides an accredited documentation of the valuable contributions made by today’s younger generation of scientists. Theses are accepted into the series by invited nomination only and must fulfill all of the following criteria (cid:129) They must be written in good English. (cid:129) ThetopicshouldfallwithintheconfinesofChemistry,Physics,EarthSciences, Engineeringandrelatedinterdisciplinary fields such asMaterials,Nanoscience, Chemical Engineering, Complex Systems and Biophysics. (cid:129) The work reported in the thesis must represent a significant scientific advance. (cid:129) Ifthethesisincludespreviouslypublishedmaterial,permissiontoreproducethis must be gained from the respective copyright holder. (cid:129) They must have been examined and passed during the 12 months prior to nomination. (cid:129) Each thesis should include a foreword by the supervisor outlining the signifi- cance of its content. (cid:129) The theses should have a clearly defined structure including an introduction accessible to scientists not expert in that particular field. More information about this series at http://www.springer.com/series/8790 Jennifer Jucha Time-Symmetry Breaking in Turbulent Multi-Particle Dispersion Doctoral Thesis accepted by ö the University of G ttingen, Germany 123 Author Supervisor Dr. Jennifer Jucha Prof. Eberhard Bodenschatz Laboratory for FluidDynamics, Pattern Laboratory for FluidDynamics, Pattern Formationand Biocomplexity Formationand Biocomplexity MaxPlanckInstitute for Dynamicsand MaxPlanckInstitute for Dynamicsand Self-Organization Self-Organization Göttingen Göttingen Germany Germany ISSN 2190-5053 ISSN 2190-5061 (electronic) SpringerTheses ISBN978-3-319-19191-1 ISBN978-3-319-19192-8 (eBook) DOI 10.1007/978-3-319-19192-8 LibraryofCongressControlNumber:2015941867 SpringerChamHeidelbergNewYorkDordrechtLondon ©SpringerInternationalPublishingSwitzerland2015 Thisworkissubjecttocopyright.AllrightsarereservedbythePublisher,whetherthewholeorpart of the material is concerned, specifically the rights of translation, reprinting, reuse of illustrations, recitation, broadcasting, reproduction on microfilms or in any other physical way, and transmission orinformationstorageandretrieval,electronicadaptation,computersoftware,orbysimilarordissimilar methodologynowknownorhereafterdeveloped. The use of general descriptive names, registered names, trademarks, service marks, etc. in this publicationdoesnotimply,evenintheabsenceofaspecificstatement,thatsuchnamesareexemptfrom therelevantprotectivelawsandregulationsandthereforefreeforgeneraluse. The publisher, the authors and the editors are safe to assume that the advice and information in this book are believed to be true and accurate at the date of publication. Neither the publisher nor the authorsortheeditorsgiveawarranty,expressorimplied,withrespecttothematerialcontainedhereinor foranyerrorsoromissionsthatmayhavebeenmade. Printedonacid-freepaper SpringerInternationalPublishingAGSwitzerlandispartofSpringerScience+BusinessMedia (www.springer.com) Turbulence is the most important unsolved problem of classical physics. Richard P. Feynman, The Feynman Lectures on Physics, 1964 ’ Supervisor s Foreword ThisthesisbyJenniferJuchapresentsexcitingnewresultsonthetimereversibility and multiple particle dispersion inturbulent flows of simple and complex fluids. It shows beautifully the connection between time irreversibility of the turbulent flow and two and four particle dispersion. This, Jennifer Jucha achieved by combining analytical theoretical calculations of the short-time evolution with careful experi- mental investigations of multi-particle dispersion in which particles are tracked at very high spatial and temporal resolution, and first-principle simulations of the Navier-Stokes equation in a periodic box. The thesis comprehensively and con- cisely reviews fluid turbulence as a whole and particle tracking in particular. An analysis of the experimental methods is presented and the finite volume biases are discussedindetailandmethodsofavoidingthemareshown.Thethesispresentsthe very important discovery that short-time pair dispersion is faster backwards than forwards in time. It convincingly connects this to the turbulent energy transfer throughscales(energycascade).ItisastoundingthatthisquiteweakeffectOðt3Þis clearlymeasurableinexperiment.Thetetrahedronanalysisontheotherhandgives muchclearerresultsatOðtÞduetothenon-vanishingintermediateeigenvalueofthe perceivedrate-of-straintensor. Thisfinding isvery important,as it allows a coarse grainedunderstandingofturbulencedynamicspurelybasedontheevolutionoffour particles. It is delightful to see the fearless theoretical analysis combined with a beautifully done experiment and analysis. Then, Jennifer carries over her experi- mental technique to very dilute polymer solutions. This adds elastic degrees of vii viii Supervisor’sForeword freedomtotheenergytransportthroughtheturbulentcascade.Shefindsunexpected newresultsthatcryforatheoreticalexplanation.Overall,thisisatrulyexceptional thesis—a must read for students and senior researchers alike. March 2014 Prof. Eberhard Bodenschatz Laboratory for Fluid Dynamics Pattern Formation and Biocomplexity Max Planck Institute for Dynamics and Self-Organization, Göttingen, Germany Institute for Nonlinear Dynamics University of Göttingen Göttingen, Germany Laboratory of Atomic and Solid State Physics Sibley School of Mechanical and Aerospace Engineering Cornell University Ithaca, USA Acknowledgments I would first of all like to thank my advisor Eberhard Bodenschatz for offering me thepossibilitytoconductmydoctoralresearchinsuchastimulatingandsupportive environment. With his enthusiasm for new ideas and projects he greatly motivated metothinkoutsidetheboxanddaretotrynewthings.WhatIappreciatemostisthe guidanceheprovidedformypersonalandprofessionaldevelopment.Hehelpedme to discover which career I want to pursue and he enabled me to work towards my goals. I also thank Annette Zippelius and Jens Niemeyer for their helpful ideas and recommendationsduringmythesiscommitteemeetings.Beingfromdifferentfields of research, they contributed the outside perspective on my project that helped me to prevent any blind spots. Another person whocontributedgreatlytothesuccessofthis thesis wasHaitao Xu. With his seemingly endless knowledge on experimental techniques and his great patience in teaching them, he was the one to support me in my challenging transitionfrombeingatheoreticalphysicisttobeinganexperimentalone.Hisgreat experience with turbulent flows and our many intense discussions on experimental findingswereanenormoushelptomeininterpretingmydata.Hisdoorwasalways open for me and I am deeply grateful for this. I also want to thank my collaborator Alain Pumir from École Normale SupérieuredeLyon.ThankstohimIwasabletocomparemyexperimentalfindings with numerical results and even tackle some questions my data could not address. Besides this, he was always willing to double-check and improve my calculations and was never tired of explaining some of the more complex theoretical ideas to me. Further theoretical support was provided by Anna Frishmann from the WeizmannInstituteofScienceinRehovot.AfterIdiscussedwithhermypuzzling finding that the odd and even terms of my short-time expansion seem to have different intrinsic timespans, she quickly developed the brilliant proof on why this must be the case. I also greatly appreciate our discussions on science and culture, which made many a conference more enjoyable. ix x Acknowledgments Ofcourse,Ialsowishtothankallofthelovelypeopleattheinstitutewhomade my stay here so great. I very much enjoyed the friendly atmosphere and the readiness to help each other. I would especially like to thank Garrett Good for proofreading every line of this thesis at least once and for helping me to improve my English. I am also very grateful to all of the excellent machinists, electricians andtechniciansintheworkshopsandexperimentalhall.Theirhelpinallmysmall and large disasters in the lab was invaluable. GreatthanksarealsoduetotheentireGGNBteamfortheirfast,unbureaucratic support in all areas of the graduate school. LastbutnotleastIwouldliketothankmyfamilyfortheirloveandsupportinall these years. I am very happy to have such loving parents who always encouraged metodowhatIenjoyandneverfailedtoofferhelporadvice.Ialsothankmysister for always listening to my problems and for helping me put them in the right perspective.Finally,IwouldliketothankmyhusbandPatrick.Hisdeeptrustinme and his ability to always make me laugh made even the most difficult times enjoyable. Göttingen, Germany Jennifer Jucha July 2014

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