Universality in the emergence of oscillatory instabilities in turbulent flows

Induja Pavithran; Vishnu R. Unni; Alan J. Varghese; R. I. Sujith; Abhishek Saha; Norbert Marwan; Jürgen Kurths

doi:10.1209/0295-5075/129/24004

Universality in the emergence of oscillatory instabilities in turbulent flows

Induja Pavithran, Vishnu R. Unni, Alan J. Varghese, R. I. Sujith, Abhishek Saha, Norbert Marwan, Jürgen Kurths

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

23 Scopus citations

Abstract

Self-organization driven by feedback between subsystems is ubiquitous in turbulent fluid mechanical systems. This self-organization manifests as emergence of oscillatory instabilities and is often studied in different system-specific frameworks. We uncover the existence of a universal scaling behaviour during self-organization in turbulent flows leading to oscillatory instability. Our experiments show that the spectral amplitude of the dominant mode of oscillations scales with the Hurst exponent of a fluctuating state variable following an inverse power law relation. Interestingly, we observe the same power law behaviour with a constant exponent near -2 across various turbulent systems such as aeroacoustic, thermoacoustic and aeroelastic systems.

Original language	English
Article number	24004
Journal	EPL
Volume	129
Issue number	2
DOIs	https://doi.org/10.1209/0295-5075/129/24004
State	Published - 1 Jan 2020
Externally published	Yes

ASJC Scopus subject areas

General Physics and Astronomy

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title = "Universality in the emergence of oscillatory instabilities in turbulent flows",

abstract = "Self-organization driven by feedback between subsystems is ubiquitous in turbulent fluid mechanical systems. This self-organization manifests as emergence of oscillatory instabilities and is often studied in different system-specific frameworks. We uncover the existence of a universal scaling behaviour during self-organization in turbulent flows leading to oscillatory instability. Our experiments show that the spectral amplitude of the dominant mode of oscillations scales with the Hurst exponent of a fluctuating state variable following an inverse power law relation. Interestingly, we observe the same power law behaviour with a constant exponent near -2 across various turbulent systems such as aeroacoustic, thermoacoustic and aeroelastic systems.",

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T1 - Universality in the emergence of oscillatory instabilities in turbulent flows

AU - Pavithran, Induja

AU - Unni, Vishnu R.

AU - Varghese, Alan J.

AU - Sujith, R. I.

AU - Saha, Abhishek

AU - Marwan, Norbert

AU - Kurths, Jürgen

PY - 2020/1/1

Y1 - 2020/1/1

N2 - Self-organization driven by feedback between subsystems is ubiquitous in turbulent fluid mechanical systems. This self-organization manifests as emergence of oscillatory instabilities and is often studied in different system-specific frameworks. We uncover the existence of a universal scaling behaviour during self-organization in turbulent flows leading to oscillatory instability. Our experiments show that the spectral amplitude of the dominant mode of oscillations scales with the Hurst exponent of a fluctuating state variable following an inverse power law relation. Interestingly, we observe the same power law behaviour with a constant exponent near -2 across various turbulent systems such as aeroacoustic, thermoacoustic and aeroelastic systems.

AB - Self-organization driven by feedback between subsystems is ubiquitous in turbulent fluid mechanical systems. This self-organization manifests as emergence of oscillatory instabilities and is often studied in different system-specific frameworks. We uncover the existence of a universal scaling behaviour during self-organization in turbulent flows leading to oscillatory instability. Our experiments show that the spectral amplitude of the dominant mode of oscillations scales with the Hurst exponent of a fluctuating state variable following an inverse power law relation. Interestingly, we observe the same power law behaviour with a constant exponent near -2 across various turbulent systems such as aeroacoustic, thermoacoustic and aeroelastic systems.

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SN - 0295-5075

VL - 129

JO - EPL

JF - EPL

IS - 2

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ER -

Universality in the emergence of oscillatory instabilities in turbulent flows

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