Resolving the Weinberg paradox with topology
From MaRDI portal
Publication:2421166
DOI10.1007/JHEP03(2019)177zbMath1414.81224arXiv1809.05102WikidataQ128202498 ScholiaQ128202498MaRDI QIDQ2421166
John Terning, Christopher B. Verhaaren
Publication date: 8 June 2019
Published in: Journal of High Energy Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1809.05102
Electromagnetic interaction; quantum electrodynamics (81V10) Topological field theories in quantum mechanics (81T45) (2)-body potential quantum scattering theory (81U05)
Related Items (5)
Dressed vs. pairwise states, and the geometric phase of monopoles and charges ⋮ Classical observables from partial wave amplitudes ⋮ Dark monopoles and SL(2, \(\mathbb{Z}\)) duality ⋮ Zwanziger's pairwise little group on the celestial sphere ⋮ Holographic chiral algebra: supersymmetry, infinite Ward identities, and EFTs
Cites Work
- Unnamed Item
- Unnamed Item
- Linking numbers and variational method
- A quantum field theoretic description of linking numbers and their generalization
- Quantum field theory and the Jones polynomial
- Erratum: Electric-magnetic duality, monopole condensation, and confinement in \(N=2\) supersymmetric Yang-Mills theory
- Monopoles, duality and chiral symmetry breaking in \(N=2\) supersymmetric QCD
- Duality-invariant quantum field theories of charges and monopoles
- Subleading soft photons and large gauge transformations
- Dark monopoles and SL(2, \(\mathbb{Z}\)) duality
- Soft charges and electric-magnetic duality
- Topological gauge theories of antisymmetric tensor fields
- Duality symmetric actions
- Magnetic Corrections to the Soft Photon Theorem
- GAUSS' LINKING NUMBER REVISITED
- Significance of Electromagnetic Potentials in the Quantum Theory
- Magnetic Monopoles
- The Theory of Magnetic Poles
This page was built for publication: Resolving the Weinberg paradox with topology
