Matter Wave Turbulence: Beyond Kinetic Scaling

Details Matter Wave Turbulence: Beyond Kinetic Scaling Matter Wave Turbulence: Beyond Kinetic Scaling

2009-12-21

arxiv.org/abs/0912.4183v1

Phys. Rev. A 81: 033611, 2010

Physics

Condensed Matter

Quantum Gases

18 pages, 2 figures

Scientific paper

Turbulent scaling phenomena are studied in an ultracold Bose gas away from thermal equilibrium. Fixed points of the dynamical evolution are characterized in terms of universal scaling exponents of correlation functions. The scaling behavior is determined analytically in the framework of quantum field theory, using a nonperturbative approximation of the two-particle irreducible effective action. While perturbative Kolmogorov scaling is recovered at higher energies, scaling solutions with anomalously large exponents arise in the infrared regime of the turbulence spectrum. The extraordinary enhancement in the momentum dependence of long-range correlations could be experimentally accessible in dilute ultracold atomic gases. Such experiments have the potential to provide insight into dynamical phenomena directly relevant also in other present-day focus areas like heavy-ion collisions and early-universe cosmology.

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