Turbulent capillary cascade near the edge of the inertial range on the surface of a quantum liquid

被引:0
|
作者
L. V. Abdurakhimov
M. Yu. Brazhnikov
A. A. Levchenko
I. A. Remizov
S. V. Filatov
机构
[1] Russian Academy of Sciences,Institute of Solid State Physics
来源
JETP Letters | 2012年 / 95卷
关键词
JETP Letter; Capillary Wave; Inertial Range; Liquid Hydrogen; Exciting Force;
D O I
暂无
中图分类号
学科分类号
摘要
In the dissipative range at frequencies above the inertial frequency range, the turbulent cascade of capillary waves on the surface of liquid helium and hydrogen decays according to an exponential law. The characteristic frequency of the quasi-Planck distribution is determined by the spectral characteristic of an exciting force. In the case of harmonic pumping on the surface of superfluid helium in the discrete turbulence regime, energy condensation is observed near the high-frequency edge of the inertial range. The effect is due to the influence of discreteness in the spectrum of the eigenfrequencies of surface excitations and in the turbulence distribution on the energy transfer through the cascade.
引用
收藏
页码:670 / 679
页数:9
相关论文
共 46 条
  • [1] Turbulent capillary cascade near the edge of the inertial range on the surface of a quantum liquid
    Abdurakhimov, L. V.
    Brazhnikov, M. Yu
    Levchenko, A. A.
    Remizov, I. A.
    Filatov, S. V.
    JETP LETTERS, 2012, 95 (12) : 670 - 679
  • [2] Decay of a turbulent cascade of capillary waves at the surface of liquid hydrogen
    Brazhnikov, MY
    Kolmakov, GV
    Levchenko, AA
    Mezhov-Deglin, LP
    Sil'chenko, AN
    McClintock, PVE
    JETP LETTERS, 2004, 80 (02) : 90 - 94
  • [3] Decay of a turbulent cascade of capillary waves at the surface of liquid hydrogen
    M. Yu. Brazhnikov
    G. V. Kolmakov
    A. A. Levchenko
    L. P. Mezhov-Deglin
    A. N. Sil’chenko
    P. V. E. McClintock
    Journal of Experimental and Theoretical Physics Letters, 2004, 80 : 90 - 94
  • [4] Decay of the turbulent cascade of capillary waves on the charged surface of liquid hydrogen
    Kolmakov, GV
    Levchenko, AA
    Brazhnikov, MY
    Mezhov-Deglin, LP
    Silchenko, AN
    McClintock, PVE
    JOURNAL OF LOW TEMPERATURE PHYSICS, 2005, 138 (3-4) : 519 - 524
  • [5] Decay of the Turbulent Cascade of Capillary Waves on the Charged Surface of Liquid Hyrdrogen
    G. V. Kolmakov
    A. A. Levchenko
    M. Yu. Brazhnikov
    L. P. Mezhov-Deglin
    A. N. Silchenko
    P. V. E. McClintock
    Journal of Low Temperature Physics, 2005, 138 : 519 - 524
  • [6] TWO MODELS FOR THE CASCADE OF QUANTUM CASCADE DETECTOR OPERATING IN THE NEAR INFRARED RANGE
    Seti, Ju. O.
    Tkach, M. V.
    Pan'kiv, M. V.
    JOURNAL OF PHYSICAL STUDIES, 2016, 20 (1-2):
  • [7] Observation of dynamic maximum in a turbulent cascade on the surface of liquid hydrogen
    Remizov, I. A.
    Brazhnikov, M. Yu.
    Levchenko, A. A.
    LOW TEMPERATURE PHYSICS, 2016, 42 (12) : 1067 - 1070
  • [8] Statistics of Capillary Waves on the Surface of Liquid Hydrogen in a Turbulent Regime
    Leonid Victorovich Abdurakhimov
    Maxim Yurievich Brazhnikov
    Alexander Alexeevich Levchenko
    Journal of Low Temperature Physics, 2008, 150 : 431 - 434
  • [9] Statistics of capillary waves on the surface of liquid hydrogen in a turbulent regime
    Abdurakhimov, Leonid Victorovich
    Brazhnikov, Maxim Yurievich
    Levchenko, Alexander Alexeevich
    JOURNAL OF LOW TEMPERATURE PHYSICS, 2008, 150 (3-4) : 431 - 434
  • [10] Evaluation of the turbulent energy cascade rates from the upper inertial range in the solar wind at 1 AU
    Vasquez, Bernard J.
    Smith, Charles W.
    Hamilton, Kathleen
    MacBride, Benjamin T.
    Leamon, Robert J.
    JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 2007, 112 (A7)
12345