E. A. Kochurin, E. A. Kuznetsov
Published 2022-11-17Version 1
We present the results of direct numerical simulation of three-dimensional acoustic turbulence in medium with weak positive dispersion. It is shown that at the beginning of the long-wavelength region in the turbulence energy distribution in the $k$-space, there are formed jets in the form of narrow cones. At larger wavenumbers, the cones broaden, and the distribution accordingly tends to isotropic. In this region of wavenumbers, the angle-averaged turbulence spectrum acquires a power-law character, $E(k)\propto k^{-\alpha}$, with the exponent close to $3/2$, which corresponds to the Zakharov-Sagdeev weak acoustic turbulence spectrum.
Comments: 6 pages, 6 figures
Journal: JETP Letters, v. 116, i. 12 (2022)
Direct Numerical Simulations of pore competition in idealized micro-spall using the VOF method
Is a Direct Numerical Simulation of Chaos or Turbulence Possible: A Study of a Model Non-Linearity
Direct Numerical Simulation of a separated channel flow with a smooth profile
![QR code for arXiv:2211.09430 [physics.flu-dyn]](http://oss.arxitics.com/images/favicon.svg)