This paper presents a review of theoretical, experimental, and numerical studies of
geometric attractors of internal and/or inertial waves in a stratified and/or rotating fluid. The …

Fluid flow excited by inertial waves in a rotating annulus with a trapezoidal cross section is
experimentally investigated. The forcing is introduced by the precession of a flat annular lid …

We present an experimental and numerical study of the nonlinear dynamics of an inertial
wave attractor in an axisymmetric geometrical setting. The rotating ring-shaped fluid domain …

The Springer Oceanography series seeks to publish a broad portfolio of scientific books,
aiming at researchers, students, and everyone interested in marine sciences. The series …

The simplest geometry of the domain, for which internal wave attractors were for the first time
investigated both experimentally and numerically, has the shape of a trapezium with one …

The effect of the nutation angle on the flow inside a precessing cylinder is experimentally
explored and compared with numerical simulations. The focus is laid on the typical …

We consider inertial waves propagating in a fluid contained in a non-axisymmetric three-
dimensional rotating cavity. We focus on the particular case of a fluid enclosed inside a …

Представлен обзор теоретических, экспериментальных и численных исследований
геометрических аттракторов внутренних и (или) инерционных волн в …

This paper compares the nonlinear dynamics of two key types of motion observed in a
rotating liquid-filled cavity subject to external forcing: an inertial wave attractor and resonant …

We present an investigation of the resonance conditions governing triad interactions of
cylindrical internal waves, ie Kelvin modes, described by Bessel functions. Our analytical …