Higher Structures, Self‐Dual Strings and 6d Superconformal Field Theories
From MaRDI portal
Publication:6058797
DOI10.1002/prop.201910014arXiv1903.02888OpenAlexW2942166342MaRDI QIDQ6058797
Publication date: 1 November 2023
Published in: Fortschritte der Physik (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1903.02888
Related Items
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Six-dimensional superconformal couplings of non-abelian tensor and hypermultiplets
- Twisted differential string and fivebrane structures
- Six-dimensional superconformal field theories from principal 3-bundles over twistor space
- Six-dimensional tensionless strings in the large \(N\) limit
- Bundle gerbes for Chern-Simons and Wess-Zumino-Witten theories
- Categorified symplectic geometry and the classical string
- Algebraic structures on parallel M2 branes
- Ten-dimensional Maxwell-Einstein supergravity, its currents, and the issue of its auxiliary fields
- The self-dual string soliton
- M-brane models from non-abelian gerbes
- Five-branes and M-theory on an orbifold
- Orbifolds of M-theory
- Open \(p\)-branes
- Čech cocycles for differential characteristic classes: an \(\infty \)-Lie theoretic construction
- Non-abelian tensor multiplet equations from twistor space
- (1,0) superconformal models in six dimensions
- Higher gauge theory with string 2-groups
- Semistrict higher gauge theory
- Higher groupoid bundles, higher spaces, and self-dual tensor field equations
- String connections and Chern-Simons theory
- The ABJM model is a higher gauge theory
- L-infinity algebra connections and applications to String- and Chern-Simons n-transport
- Towards an M5-brane model I: A 6d superconformal field theory
- Strongly homotopy lie algebras
- Supersymmetries and their representations
- Super-Lie n-algebra extensions, higher WZW models and super-p-branes with tensor multiplet fields
- Conformal Field Theory In Four And Six Dimensions
- Deformations of chiral two-forms in six dimensions
- Chiral forms and their deformations.
