Weak turbulence of Kelvin waves in superfluid He
DOI:
https://doi.org/10.1063/1.3499242Ключові слова:
turbulence, superfluid, Kelvin wave.Анотація
Physics of small-scale quantum turbulence in superfluids is essentially based on the knowledge of the energy spectrum of Kelvin waves, Ek. In our paper, we derive a new type of kinetic equation for Kelvin waves on quantized vortex filaments with random large-scale curvature which describes a step-by-step energy cascade over scales caused by five-wave interactions. This approach replaces the previously used six-wave theory, which was recently shown to be inconsistent due to nonlocality. Solving the four-wave kinetic equation, we found a new local spectrum with a universal (curvature-independent) exponent, Ek k µ −5/3, which must replace the nonlocal spectrum of the six-wave theory, Ek k µ −7/5, in future theory, e.g., in finding the quantum turbulence decay rate, found by Kosik and Svistunov under wrong assumption of the locality of energy transfer in the sixwave interactions.Завантаження
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Опубліковано
2010-08-04
Як цитувати
(1)
L’vov, V. S.; Nazarenko, S. Weak Turbulence of Kelvin Waves in Superfluid He. Fiz. Nizk. Temp. 2010, 36, 986-993.
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