A note on the Newman-Unti group and the BMS charge algebra in terms of Newman-Penrose coefficients
From MaRDI portal
Publication:1942171
DOI10.1155/2012/197385zbMath1266.83132arXiv1102.0589OpenAlexW3103094862WikidataQ58699542 ScholiaQ58699542MaRDI QIDQ1942171
Glenn Barnich, Pierre-Henry Lambert
Publication date: 18 March 2013
Published in: Advances in Mathematical Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1102.0589
Gravitational energy and conservation laws; groups of motions (83C40) Spinor and twistor methods in general relativity and gravitational theory; Newman-Penrose formalism (83C60)
Related Items (26)
Finite BMS transformations ⋮ Vacua of the gravitational field ⋮ Quantum BMS transformations in conformally flat space-times and holography ⋮ Lie theory for asymptotic symmetries in general relativity: The NU group ⋮ Multipole expansion of gravitational waves: memory effects and Bondi aspects ⋮ Loop-corrected subleading soft theorem and the celestial stress tensor ⋮ Extended phase space in general gauge theories ⋮ Supertranslations: redundancies of horizon data and global symmetries at null infinity ⋮ The Weyl BMS group and Einstein's equations ⋮ BMS supertranslations and not so soft gravitons ⋮ Centrally extended BMS4 Lie algebroid ⋮ Cosmic footballs from superrotations ⋮ BMS current algebra in the context of the Newman–Penrose formalism ⋮ Hamiltonian derivation of dual gravitational charges ⋮ A lower bound of the Trautman–Bondi energy ⋮ Multipole expansion of gravitational waves: from harmonic to Bondi coordinates ⋮ The effective action of superrotation modes ⋮ Conservation and integrability in lower-dimensional gravity ⋮ Comments on holographic current algebras and asymptotically flat four dimensional spacetimes at null infinity ⋮ Coadjoint representation of the BMS group on celestial Riemann surfaces ⋮ Charge algebra in \(\mathrm{Al}(A)dS_n\) spacetimes ⋮ Gravitational memory in the bulk ⋮ Gravity from symmetry: duality and impulsive waves ⋮ Sub-subleading soft graviton theorem from asymptotic Einstein's equations ⋮ Supertranslations and holographic stress tensor ⋮ Notes on self-dual gravity
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Asymptotic symmetry and the global structure of future null infinity
- A characterization of the Bondi-Metzner-Sachs group
- A comment on the outgoing radiation condition for the gravitational field and the peeling theorem
- BMS charge algebra
- Aspects of the BMS/CFT correspondence
- Gravitational waves in general relativity VIII. Waves in asymptotically flat space-time
- Gravitational waves in general relativity, VII. Waves from axi-symmetric isolated system
- Angular momentum at null infinity
- An Approach to Gravitational Radiation by a Method of Spin Coefficients
- The Kerr spacetime in generalized Bondi–Sachs coordinates
- Diffeomorphisms and holographic anomalies
- A note on gauge systems from the point of view of Lie algebroids
- Zero rest-mass fields including gravitation: asymptotic behaviour
- The Lorentz Group and the Sphere
- Behavior of Asymptotically Flat Empty Spaces
- Asymptotic Symmetries in Gravitational Theory
This page was built for publication: A note on the Newman-Unti group and the BMS charge algebra in terms of Newman-Penrose coefficients
