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Abstract
The bottleneck phenomenon in three-dimensional turbulence is generally associated with the dissipation range of the energy spectrum. In the present work, it is shown by using a two-point closure theory, that in two-dimensional turbulence it is possible to observe a bottleneck at the large scales, due to the effect of friction on the inverse energy cascade. This large-scale bottleneck is directly related to the process of energy condensation, the pile-up of energy at wavenumbers corresponding to the domain size. The link between the use of friction and the creation of space-filling structures is discussed and it is concluded that the careless use of hypofriction might reduce the inertial range of the energy spectrum.
Acknowledgements
We acknowledge interaction and discussion with Claude Cambon, Uriel Frisch, Fabien Godeferd, Walter Pauls, Samriddhi Sankar Ray, Jian-Zhou Zhu, and two anonymous referees.
