Add to ORKGThe paper provides a new framework for the description of linearized adiabatic lagrangian perturbations and stability of differentially rotating newtonian stars. In doing so it overcomes problems in a previous framework by Dyson and Schutz and provides the basis of a rigorous analysis of the stability of such stars. For this the governing equation of the oscillations is written as a first order system in time. From that system the generator of time evolution is read off and a Hilbert space is given where it generates a strongly continuous group. As a consequence the governing equation has a well-posed initial value problem. The spectrum of the generator relevant for stability considerations is shown to be equal to the spectrum of an operato...
A new theory of gravitational shocking based on time-dependent perturbation theory shows that the ch...
The equations of relativistic, perfect-fluid hydrodynamics are cast in Eulerian form using six scala...
We study 2D Euler equations on a rotating surface, subject to the effect of the Coriolis force, with...
The paper provides a new framework for the description of linearized adiabatic lagrangian perturbati...
It is noted that linear adiabatic perturbations of a differentially rotating, axisymmetric, perfect ...
The stability of axisymmetric, differential rotation in non-magnetic stars of uniform chemical compo...
Motivated by the possibility of radiation driven instabilities in rotating magnetic stars, we study ...
The equations describing nonradial adiabatic oscillations of differentially rotating relativistic st...
At second order in perturbation theory, the r-modes of uniformly rotating stars include an axisymmet...
In previousworkwe constructed newboson star solutions consisting of a family of massive complex scal...
The paper considers the spectrum of axial perturbations of slowly uniformly rotating general relativ...
The adiabatic criterion, widely used in astronomical dynamics, is based on the harmonic oscillator. ...
We study the dynamical stability against bar-mode deformation of rapidly and differentially rotating...
Nonaxisymmetric oscillations of rapidly rotating relativistic stars are studied using the Cowling ap...
The problem of angular momentum transport in the radiative zone of the Sun and other stars is curren...
A new theory of gravitational shocking based on time-dependent perturbation theory shows that the ch...
The equations of relativistic, perfect-fluid hydrodynamics are cast in Eulerian form using six scala...
We study 2D Euler equations on a rotating surface, subject to the effect of the Coriolis force, with...
The paper provides a new framework for the description of linearized adiabatic lagrangian perturbati...
It is noted that linear adiabatic perturbations of a differentially rotating, axisymmetric, perfect ...
The stability of axisymmetric, differential rotation in non-magnetic stars of uniform chemical compo...
Motivated by the possibility of radiation driven instabilities in rotating magnetic stars, we study ...
The equations describing nonradial adiabatic oscillations of differentially rotating relativistic st...
At second order in perturbation theory, the r-modes of uniformly rotating stars include an axisymmet...
In previousworkwe constructed newboson star solutions consisting of a family of massive complex scal...
The paper considers the spectrum of axial perturbations of slowly uniformly rotating general relativ...
The adiabatic criterion, widely used in astronomical dynamics, is based on the harmonic oscillator. ...
We study the dynamical stability against bar-mode deformation of rapidly and differentially rotating...
Nonaxisymmetric oscillations of rapidly rotating relativistic stars are studied using the Cowling ap...
The problem of angular momentum transport in the radiative zone of the Sun and other stars is curren...
A new theory of gravitational shocking based on time-dependent perturbation theory shows that the ch...
The equations of relativistic, perfect-fluid hydrodynamics are cast in Eulerian form using six scala...
We study 2D Euler equations on a rotating surface, subject to the effect of the Coriolis force, with...