Correlators in the supereigenvalue model in the Ramond sector
DOI10.1016/j.physletb.2020.135563zbMath1473.81147arXiv2006.11013OpenAlexW3036796005MaRDI QIDQ821435
Publication date: 20 September 2021
Published in: Physics Letters. B (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/2006.11013
Virasoro and related algebras (17B68) Two-dimensional field theories, conformal field theories, etc. in quantum mechanics (81T40) Supersymmetric field theories in quantum mechanics (81T60) Estimates of eigenvalues in context of PDEs (35P15) Eigenvalues, singular values, and eigenvectors (15A18) Infinite-dimensional groups and algebras motivated by physics, including Virasoro, Kac-Moody, (W)-algebras and other current algebras and their representations (81R10) Matrix models and tensor models for quantum field theory (81T32)
Related Items (5)
Cites Work
- Spinning strings and integrable spin chains in the AdS/CFT correspondence
- Ding-Iohara-Miki symmetry of network matrix models
- Super-quantum curves from super-eigenvalue models
- Explicit examples of DIM constraints for network matrix models
- Supereigenvalue models and topological recursion
- From CFT to Ramond super-quantum curves
- On \((q,t)\)-deformation of Gaussian matrix model
- Exact correlators in the Gaussian Hermitian matrix model
- Topological recursion in the Ramond sector
- On \(W\)-representations of \(\beta\)- and \(q,t\)-deformed matrix models
- \(W_{1+\infty}\) constraints for the Hermitian one-matrix model
- On the complete perturbative solution of one-matrix models
- THE PARTITION FUNCTION FOR THE SUPERSYMMETRIC EIGENVALUE MODEL
- NON-PERTURBATIVE SOLUTION OF THE SUPER-VIRASORO CONSTRAINTS
- LOOP EQUATIONS AND NON-PERTURBATIVE EFFECTS IN TWO-DIMENSIONAL QUANTUM GRAVITY
- PROPERTIES OF LOOP EQUATIONS FOR THE HERMITIAN MATRIX MODEL AND FOR TWO-DIMENSIONAL QUANTUM GRAVITY
- DOUBLE SCALING LIMIT OF THE SUPER-VIRASORO CONSTRAINTS
- SUPERLOOP EQUATIONS AND TWO-DIMENSIONAL SUPERGRAVITY
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