Emergence of Isotropy and Dynamic Scaling in 2D Wave Turbulence in a Homogeneous Bose Gas
Maciej Gałka, Panagiotis Christodoulou, Martin Gazo, Andrey Karailiev, Nishant Dogra, Julian Schmitt, Zoran Hadzibabic
Abstract
We realize a turbulent cascade of wave excitations in a homogeneous 2D Bose gas and probe on all relevant time and length scales how it builds up from small to large momenta, until the system reaches a steady state with matching energy injection and dissipation. This all-scales view directly reveals the two theoretically expected cornerstones of turbulence formation-the emergence of statistical momentum-space isotropy under anisotropic forcing and the spatiotemporal scaling of the momentum distribution at times before any energy is dissipated.
Topics & Concepts
PhysicsIsotropyScalingDissipationTurbulenceAnisotropyEnergy cascadeMomentum (technical analysis)Bose gasCascadeHomogeneous isotropic turbulenceHomogeneousWavenumberStatistical physicsForcing (mathematics)Classical mechanicsMechanicsQuantum mechanicsDirect numerical simulationBose–Einstein condensateGeometryReynolds numberFinanceChromatographyEconomicsAtmospheric sciencesChemistryMathematicsCold Atom Physics and Bose-Einstein CondensatesRandom lasers and scattering mediaSpectroscopy and Laser Applications