Focus |

Turbulence

Decades-old speculation that the transition to turbulence belongs to the directed percolation universality class is confirmed with theoretical, numerical and experimental evidence in our Focus on Turbulence.

Content

  • Nature Physics | Editorial

    An excursion into ecology and two sets of experiments lay the foundation for our Focus on Turbulence.

  • Nature Physics | Commentary

    For a problem as complex as turbulence, combining universal concepts from statistical physics with ideas from fluid mechanics has proven indispensable. Three decades since this link was formed, it is still providing food for new thought.

    • Yves Pomeau
  • Nature Physics | News & Views

    In the transition from laminar to turbulent pipe flow, puffs of turbulence form, split and decay. The phenomenology and lifetime of these turbulent puffs exhibit population dynamics that also drive predator–prey ecosystems on the edge of extinction.

    • Johannes Knebel
    • , Markus F. Weber
    •  &  Erwin Frey
  • Nature Physics | Letter

    Experiments and simulations of the transition to turbulence in fluid flow through a quasi-2D channel reveal critical exponents consistent with directed percolation — long conjectured to be the universality class associated with the transition.

    • Masaki Sano
    •  &  Keiichi Tamai
  • Nature Physics | Letter

    Decades-old speculation that the transition to turbulence belongs to the directed percolation universality class is confirmed with experimental and numerical data for flow through a quasi-one-dimensional Couette geometry.

    • Grégoire Lemoult
    • , Liang Shi
    • , Kerstin Avila
    • , Shreyas V. Jalikop
    • , Marc Avila
    •  &  Björn Hof