THE RELATIVE ENERGY OF HOMOGENEOUS AND ISOTROPIC UNIVERSES FROM VARIATIONAL PRINCIPLES
From MaRDI portal
Publication:5851058
DOI10.1142/S021988780900417XzbMath1181.83069arXiv0812.1678MaRDI QIDQ5851058
Enrico Bibbona, Mauro Francaviglia, Lorenzo Fatibene
Publication date: 21 January 2010
Published in: International Journal of Geometric Methods in Modern Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/0812.1678
energyNoether theoremisotropic cosmological modelscovariant conserved quantitiesFriedman-Lemaitre-Robertson-Walker universes
Gravitational energy and conservation laws; groups of motions (83C40) Quantum hydrodynamics and relativistic hydrodynamics (76Y05)
Related Items (3)
ADM pseudotensors, conserved quantities and covariant conservation laws in general relativity ⋮ Intrinsic vanishing of energy and momenta in a universe ⋮ Conformal gravity: light deflection revisited and the galactic rotation curve failure
Cites Work
- Covariant first-order Lagrangians, energy-density and superpotentials in general relativity
- Role of surface integrals in the Hamiltonian formulation of general relativity
- Remarks on Noether charges and black holes entropy
- The entropy of the Taub-Bolt solution
- Thermodynamics of \((d+1)\)-dimensional NUT-charged AdS spacetimes
- The energy of the universe in teleparallel gravity
- Energy for N -body motion in two-dimensional gravity
- Nöther charges, Brown–York quasilocal energy, and related topics
- Boundary conditions, energies and gravitational heat in general relativity (a classical analysis)
- COVARIANT ENERGY IN MECHANICS
- Conserved quantities from the equations of motion: with applications to natural and gauge natural theories of gravitation
- Currents and superpotentials in classical gauge theories: II. Global aspects and the example of affine gravity
- The Large Scale Structure of Space-Time
- AUGMENTED VARIATIONAL PRINCIPLES AND RELATIVE CONSERVATION LAWS IN CLASSICAL FIELD THEORY
This page was built for publication: THE RELATIVE ENERGY OF HOMOGENEOUS AND ISOTROPIC UNIVERSES FROM VARIATIONAL PRINCIPLES
