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      Manipulation and control of collective behavior in active matter systems

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      Embargo Lift Date: 2019-11-02
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      Author
      Pinçe, Erçağ
      Advisor
      Volpe, Giovanni
      Date
      2016-11
      Publisher
      Bilkent University
      Language
      English
      Type
      Thesis
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      Abstract
      Active matter systems consist of active constituents that transform energy into directed motion in a non-equilibrium setting. The interaction of active agents with each other and with their environment results in collective motion and emergence of long-range ordering. Examples to such dynamic behaviors in living active matter systems are pattern formation in bacterial colonies, ocking of birds and clustering of pedestrian crowds. All these phenomena stem from far-from-equilibrium interactions. The governing dynamics of these phenomena are not yet fully understood and extensively studied. In this thesis, we studied the role that spatial disorder can play to alter collective dynamics in a colloidal living active matter system. We showed that the level of heterogeneity in the environment in uences the long-range order in a colloidal ensemble coupled to a bacterial bath where the non-equilibrium forces imposed by the bacteria become pivotal to control switching between gathering and dispersal of colloids. Apart from studying environmental factors in a complex active matter system, we also focused on a new class of active particles, \bionic microswimmers", and their clustering behavior. We demonstrated that spherical bionic microswimmers which are fabricated by attaching motile E. coli bacteria on melamine particles can agglomerate in large colloidal structures. Finally, we observed the emergence of swimming clusters as a result of the collective motion of bionic microswimmers. Our results provide insights about statistical behavior and far-from-equilibrium interactions in an active matter system.
      Keywords
      Active matter
      Speckle light field
      Escherichia coli
      Bionic microswimmers
      Active Brownian motion
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      http://hdl.handle.net/11693/32532
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      • Dept. of Physics - Ph.D. / Sc.D. 73
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