Add to ORKGAs long as vorticity quantization remains irrelevant for long-wave physics, superfluid turbulence supports a regime macroscopically identical to the Kolmogorov cascade of a normal liquid. At high enough wave numbers, the energy flux in wavelength space is carried by individual Kelvin-wave cascades on separate vortex lines. We analyze the transformation of the Kolmogorov cascade into the Kelvin-wave cascade, revealing a chain of three distinct intermediate cascades supported by local-induction motion of the vortex lines and distinguished by specific reconnection mechanisms. The most prominent qualitative feature predicted is unavoidable production of vortex rings of a characteristic size
The small-scale energy-transfer mechanism in zero-temperature superfluid turbulence of helium-4 is s...
The interactions of the nearest neighbour vortices are argued to play a significant role in the cros...
We study the statistical and dynamical behavior of turbulent Kelvin waves propagating on quantized v...
As long as vorticity quantization remains irrelevant for long-wave physics, superfluid turbulence su...
We present a decay scenario of superfluid turbulence (ST)—structured or non-structured tangle of qua...
To explain the observed decay of superfluid turbulence at very low temperature, it has been proposed...
Kelvin waves (kelvons), the distortion waves on vortex lines, play a key part in the relaxation of s...
Reconnections of quantum vortex filaments create sharp bends, which degenerate into propagating Kelv...
We revise the theory of superfluid turbulence near the absolute zero of temperature and suggest a di...
A Kolmogorov-type cascade of Kelvin waves—the distortion waves on vortex lines—plays a key part in t...
We derive a type of kinetic equation for Kelvin waves on quantized vortex filaments with random larg...
The physics of small-scale quantum turbulence in superfluids is essentially based on knowledge of th...
The main topological feature of a superfluid is a quantum vortex with an identifiable inner and oute...
Abstract We revise the theory of superfluid turbulence near the absolute zero of temperature and sug...
The small-scale energy-transfer mechanism in zero-temperature superfluid turbulence of helium-4 is s...
The interactions of the nearest neighbour vortices are argued to play a significant role in the cros...
We study the statistical and dynamical behavior of turbulent Kelvin waves propagating on quantized v...
As long as vorticity quantization remains irrelevant for long-wave physics, superfluid turbulence su...
We present a decay scenario of superfluid turbulence (ST)—structured or non-structured tangle of qua...
To explain the observed decay of superfluid turbulence at very low temperature, it has been proposed...
Kelvin waves (kelvons), the distortion waves on vortex lines, play a key part in the relaxation of s...
Reconnections of quantum vortex filaments create sharp bends, which degenerate into propagating Kelv...
We revise the theory of superfluid turbulence near the absolute zero of temperature and suggest a di...
A Kolmogorov-type cascade of Kelvin waves—the distortion waves on vortex lines—plays a key part in t...
We derive a type of kinetic equation for Kelvin waves on quantized vortex filaments with random larg...
The physics of small-scale quantum turbulence in superfluids is essentially based on knowledge of th...
The main topological feature of a superfluid is a quantum vortex with an identifiable inner and oute...
Abstract We revise the theory of superfluid turbulence near the absolute zero of temperature and sug...
The small-scale energy-transfer mechanism in zero-temperature superfluid turbulence of helium-4 is s...
The interactions of the nearest neighbour vortices are argued to play a significant role in the cros...
We study the statistical and dynamical behavior of turbulent Kelvin waves propagating on quantized v...