Observation of Kolmogorov turbulence due to multiscale vortices in dusty plasma experiments

Sachin Sharma; Rauoof Wani; Prabhakar Srivastav; Meenakshee Sharma; Sayak Bose; Yogesh Saxena; Sanat Tiwari

doi:10.1063/5.0231076

Observation of Kolmogorov turbulence due to multiscale vortices in dusty plasma experiments

Sachin Sharma, Rauoof Wani, Prabhakar Srivastav, Meenakshee Sharma, Sayak Bose, Yogesh Saxena, Sanat Tiwari

PPPL Discovery Plasma Science

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

We report the experimental observation of fully developed Kolmogorov turbulence originating from self-excited vortex flows in a three-dimensional (3D) dust cloud. The characteristic −5/3 scaling of 3D Kolmogorov turbulence is consistent in both the spatial and temporal energy spectra within a statistical variation of experimental data. Additionally, the 2/3 scaling in the second-order structure function further supports the presence of Kolmogorov turbulence. We also identified a slight deviation in the tails of the probability distribution functions for velocity gradients, a reflection of intermittency. The experiment showed the formation of a dust cloud in the diffused plasma region away from the electrodes. The dust rotation was observed in multiple experimental campaigns under different discharge conditions at different spatial locations and background plasma environments.

Original language	English (US)
Article number	123704
Journal	Physics of Plasmas
Volume	31
Issue number	12
DOIs	https://doi.org/10.1063/5.0231076
State	Published - Dec 1 2024

All Science Journal Classification (ASJC) codes

Condensed Matter Physics

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10.1063/5.0231076

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title = "Observation of Kolmogorov turbulence due to multiscale vortices in dusty plasma experiments",

abstract = "We report the experimental observation of fully developed Kolmogorov turbulence originating from self-excited vortex flows in a three-dimensional (3D) dust cloud. The characteristic −5/3 scaling of 3D Kolmogorov turbulence is consistent in both the spatial and temporal energy spectra within a statistical variation of experimental data. Additionally, the 2/3 scaling in the second-order structure function further supports the presence of Kolmogorov turbulence. We also identified a slight deviation in the tails of the probability distribution functions for velocity gradients, a reflection of intermittency. The experiment showed the formation of a dust cloud in the diffused plasma region away from the electrodes. The dust rotation was observed in multiple experimental campaigns under different discharge conditions at different spatial locations and background plasma environments.",

author = "Sachin Sharma and Rauoof Wani and Prabhakar Srivastav and Meenakshee Sharma and Sayak Bose and Yogesh Saxena and Sanat Tiwari",

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T1 - Observation of Kolmogorov turbulence due to multiscale vortices in dusty plasma experiments

AU - Sharma, Sachin

AU - Wani, Rauoof

AU - Srivastav, Prabhakar

AU - Sharma, Meenakshee

AU - Bose, Sayak

AU - Saxena, Yogesh

AU - Tiwari, Sanat

PY - 2024/12/1

Y1 - 2024/12/1

N2 - We report the experimental observation of fully developed Kolmogorov turbulence originating from self-excited vortex flows in a three-dimensional (3D) dust cloud. The characteristic −5/3 scaling of 3D Kolmogorov turbulence is consistent in both the spatial and temporal energy spectra within a statistical variation of experimental data. Additionally, the 2/3 scaling in the second-order structure function further supports the presence of Kolmogorov turbulence. We also identified a slight deviation in the tails of the probability distribution functions for velocity gradients, a reflection of intermittency. The experiment showed the formation of a dust cloud in the diffused plasma region away from the electrodes. The dust rotation was observed in multiple experimental campaigns under different discharge conditions at different spatial locations and background plasma environments.

AB - We report the experimental observation of fully developed Kolmogorov turbulence originating from self-excited vortex flows in a three-dimensional (3D) dust cloud. The characteristic −5/3 scaling of 3D Kolmogorov turbulence is consistent in both the spatial and temporal energy spectra within a statistical variation of experimental data. Additionally, the 2/3 scaling in the second-order structure function further supports the presence of Kolmogorov turbulence. We also identified a slight deviation in the tails of the probability distribution functions for velocity gradients, a reflection of intermittency. The experiment showed the formation of a dust cloud in the diffused plasma region away from the electrodes. The dust rotation was observed in multiple experimental campaigns under different discharge conditions at different spatial locations and background plasma environments.

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JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 12

M1 - 123704

ER -

Observation of Kolmogorov turbulence due to multiscale vortices in dusty plasma experiments

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