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Energy spectrum of two-dimensional acoustic turbulence

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arxiv 2112.10662 v2 pith:6FTPLTYD submitted 2021-12-20 cond-mat.other nlin.CDphysics.flu-dyn

Energy spectrum of two-dimensional acoustic turbulence

classification cond-mat.other nlin.CDphysics.flu-dyn
keywords acousticspectrumenergyequationfoundsolutionturbulenceturbulent
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We report an exact unique constant-flux power-law analytical solution of the wave kinetic equation for the turbulent energy spectrum, $E(k)=C_1 \sqrt{\varepsilon\, a c_{\rm s} }/k$, of acoustic waves in 2D with almost linear dispersion law, $\omega_k = c_{\rm s} k[1+(ak)^2]$, $ ak \ll 1$. Here $\varepsilon$ is the energy flux over scales, and $C_1$ is the universal constant which was found analytically. Our theory describes, for example, acoustic turbulence in 2D Bose-Einstein condensates (BECs). The corresponding 3D counterpart of turbulent acoustic spectrum was found over half a century ago, however, due to the singularity in 2D, no solution has been obtained until now. We show the spectrum $E(k)$ is realizable in direct numerical simulations of forced-dissipated Gross-Pitaevskii equation in the presence of strong condensate.

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