Some recently proposed approximations to follow the non--linear evolution of collisionless matter perturbations in the universe are reviewed. The first one, called frozen--flow approximation, is an Eulerian method within Newtonian theory, and is based on neglecting the role of particle inertia compared to the damping implied by the Hubble drag. The second approach is General Relativistic and Lagrangian; it is based on following the evolution of fluid and geometric observables in the rest frame of each fluid element, under the only approximation of neglecting the back--reaction on the system of the gravitational radiation emitted during non--linear collapse.
Non--Linear Dynamics of Irrotational Dust: Eulerian and Lagrangian Approaches
MATARRESE, SABINO;LUCCHIN, FRANCESCO;PANTANO, ORNELLA;
1993
Abstract
Some recently proposed approximations to follow the non--linear evolution of collisionless matter perturbations in the universe are reviewed. The first one, called frozen--flow approximation, is an Eulerian method within Newtonian theory, and is based on neglecting the role of particle inertia compared to the damping implied by the Hubble drag. The second approach is General Relativistic and Lagrangian; it is based on following the evolution of fluid and geometric observables in the rest frame of each fluid element, under the only approximation of neglecting the back--reaction on the system of the gravitational radiation emitted during non--linear collapse.Pubblicazioni consigliate
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