DST Scientists find clue to anomalous behaviour of self-propelled fluctuations

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DST Scientists find clue to anomalous behaviour of self-propelled fluctuations
DST Scientists find clue to anomalous behaviour of self-propelled fluctuations
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DST Scientists find clue to anomalous behaviour of self-propelled fluctuations like fish schools ,flocking birds, bacterial colonies

This understanding can be useful in nanotechnology applications like building small-scale energy-efficient bio-devices as well as biomedical applications like characterizing infection spreading in organs, antibiotic resistance and so on.

Posted On: 17 JAN 2021 12:26PM by PIB Delhi

Scientists have found a clue to dynamical origin of fluctuations in systems like fish schools, swarm of insects, flocking birds and bacterial colonies, which are called active matter systems. This understanding can be useful in nanotechnology applications like building small-scale energy-efficient bio-devices as well as biomedical applications like characterizing infection spread in organs, antibiotic resistance and so on.

Such systems are made up of self-driven components which extract energy from their surroundings to generate mechanical work. Due to continuous energy input, such systems are driven far from equilibrium and exhibit, unlike in equilibrium, fascinating collective behaviours, like clustering, “giant” mass fluctuations and anomalous transport. Particularly, their transport properties (molecular properties, analogous to viscosity, thermal conductivity and mobility that indicate the rate at which momentum, heat, and mass are transferred from one part of a system to another) can be perplexing at times.

The anomalous behaviour of such systems can be understood by considering a cup of coffee, stirred with a spoon. If one stops stirring, the coffee will eventually come to rest, due to the internal viscous forces, which resist the fluid motion. In contrast, imagine “stirring” a bacterial solution, which, under suitable conditions (bacterial concentration), can exhibit perpetual or unceasing collective directed motion; in that case, the viscosity would vanish in such “active” bacterial fluids.

Probing into this anomalous behaviour, Scientists from the S N Bose National Centre for Basic Sciences, an autonomous institute of the Department of Science &Technology, Government of India, led by Punyabrata Pradhan studied a toy model of self-propelled particles and explained the dynamical origin of ‘giant’ mass fluctuations in the system, providing insights into the emergent properties of such active matters in general. The findings of the study have been published in the journal ‘PHYSICAL REVIEW E’ recently.

The team studied a toy model of self-propelled particles where the ballistic motion of bacteria (like Escherichia coli) was mimicked through long-ranged particle hopping. They showed that, upon tuning concentration beyond a critical value, the conductivity, or the mobility, of the particles diverges; in other words, the resistance becomes zero. Moreover, they demonstrated an intimate relationship between the zero resistance and the diverging mass fluctuations in the system, thus explaining the dynamical origin of “giant’’ mass fluctuations in the system.

[Publication link:DOI: https://doi.org/10.1103/PhysRevE.101.052611

For more details, Punyabrata Pradhan Associate Professor ([email protected]) can be contacted.]

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Antara Tripathy M.Sc., B.Ed. by qualification and bring 15 years of media reporting experience.. Coverred many illustarted events like, G20, ICC,MCCI,British High Commission, Bangladesh etc. She took over from the founder Editor of IBG NEWS Suman Munshi (15/Mar/2012- 09/Aug/2018 and October 2020 to 13 June 2023).
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