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Order and fluctuations in collective...

Nishiguchi, Daiki.

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Order and fluctuations in collective dynamics of swimming bacteria = experimental exploration of active matter physics /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Order and fluctuations in collective dynamics of swimming bacteria/ by Daiki Nishiguchi.
Reminder of title:	experimental exploration of active matter physics /
Author:	Nishiguchi, Daiki.
Published:	Singapore :Springer Singapore : : 2020.,
Description:	xiii, 128 p. :ill., digital ;24 cm.
[NT 15003449]:	General Introduction -- Standard Models on Collective Motion -- Collective Motion of Filamentous Bacteria -- Active Turbulence -- Encounter of Bacterial Turbulence with Periodic Structures -- General Conclusion and Outlook.
Contained By:	Springer eBooks
Subject:	Statistical physics. -
Online resource:	https://doi.org/10.1007/978-981-32-9998-6
ISBN:	9789813299986

Order and fluctuations in collective dynamics of swimming bacteria = experimental exploration of active matter physics /
Nishiguchi, Daiki.

Order and fluctuations in collective dynamics of swimming bacteriaexperimental exploration of active matter physics /[electronic resource] :by Daiki Nishiguchi. - Singapore :Springer Singapore :2020. - xiii, 128 p. :ill., digital ;24 cm. - Springer theses,2190-5053. - Springer theses..

General Introduction -- Standard Models on Collective Motion -- Collective Motion of Filamentous Bacteria -- Active Turbulence -- Encounter of Bacterial Turbulence with Periodic Structures -- General Conclusion and Outlook.

This thesis focuses on experimental studies on collective motion using swimming bacteria as model active-matter systems. It offers comprehensive reviews of state-of-the-art theories and experiments on collective motion from the viewpoint of nonequilibrium statistical physics. The author presents his experimental studies on two major classes of collective motion that had been well studied theoretically. Firstly, swimming filamentous bacteria in a thin fluid layer are shown to exhibit true, long-range orientational order and anomalously strong giant density fluctuations, which are considered universal and landmark signatures of collective motion by many numerical and theoretical works but have never been observed in real systems. Secondly, chaotic bacterial turbulence in a three-dimensional dense suspension without any long-range order as described in the first half is demonstrated to be capable of achieving antiferromagnetic vortex order by imposing a small number of constraints with appropriate periodicity. The experimental results presented significantly advance our fundamental understanding of order and fluctuations in collective motion of motile elements and their future applications.

ISBN: 9789813299986

Standard No.: 10.1007/978-981-32-9998-6doiSubjects--Topical Terms:

536281
Statistical physics.

LC Class. No.: QC174.8 / .N574 2020

Dewey Class. No.: 530.1595

Order and fluctuations in collective dynamics of swimming bacteria = experimental exploration of active matter physics /
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245 1 0 $a Order and fluctuations in collective dynamics of swimming bacteria $h [electronic resource] : $b experimental exploration of active matter physics / $c by Daiki Nishiguchi.
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300 $a xiii, 128 p. : $b ill., digital ; $c 24 cm.
490 1 $a Springer theses, $x 2190-5053
505 0 $a General Introduction -- Standard Models on Collective Motion -- Collective Motion of Filamentous Bacteria -- Active Turbulence -- Encounter of Bacterial Turbulence with Periodic Structures -- General Conclusion and Outlook.
520 $a This thesis focuses on experimental studies on collective motion using swimming bacteria as model active-matter systems. It offers comprehensive reviews of state-of-the-art theories and experiments on collective motion from the viewpoint of nonequilibrium statistical physics. The author presents his experimental studies on two major classes of collective motion that had been well studied theoretically. Firstly, swimming filamentous bacteria in a thin fluid layer are shown to exhibit true, long-range orientational order and anomalously strong giant density fluctuations, which are considered universal and landmark signatures of collective motion by many numerical and theoretical works but have never been observed in real systems. Secondly, chaotic bacterial turbulence in a three-dimensional dense suspension without any long-range order as described in the first half is demonstrated to be capable of achieving antiferromagnetic vortex order by imposing a small number of constraints with appropriate periodicity. The experimental results presented significantly advance our fundamental understanding of order and fluctuations in collective motion of motile elements and their future applications.
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650 2 4 $a Physical Chemistry. $3 890828
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