On the complexity of a 2 + 1-dimensional holographic superconductor
DOI10.1088/1361-6382/AB6D09zbMath1478.83238arXiv1903.00613OpenAlexW3102691652MaRDI QIDQ5161350
Publication date: 29 October 2021
Published in: Classical and Quantum Gravity (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1903.00613
computational complexityphase transitionsAdS/CFTentanglement entropyholographic superconductorholographic modelssubregion complexity
Relativistic cosmology (83F05) Statistical mechanics of superconductors (82D55) Phase transitions (general) in equilibrium statistical mechanics (82B26) Critical phenomena in equilibrium statistical mechanics (82B27) Correspondence, duality, holography (AdS/CFT, gauge/gravity, etc.) (81T35) Entanglement measures, concurrencies, separability criteria (81P42)
Related Items (3)
Cites Work
- Holographic superconductors from gauged supergravity
- On complexity for \(F(R)\) and critical gravity
- Holographic superconductors
- The large \(N\) limit of superconformal field theories and supergravity
- Action growth for AdS black holes
- On volumes of subregions in holography and complexity
- Comments on holographic complexity
- Noether charge, black hole volume, and complexity
- Liouville action as path-integral complexity: from continuous tensor networks to AdS/CFT
- Circuit complexity in quantum field theory
- Holographic spacetimes as quantum circuits of path-integrations
- Subsystem complexity and holography
- Holographic complexity is nonlocal
- The large-\(N\) limit of superconformal field theories and supergravity
- Holographic complexity in gauge/string superconductors
- Holographic entanglement entropy, subregion complexity and Fisher information metric of `black' non-susy D3 brane
- Minimal holographic superconductors from maximal supergravity
- Large \(N\) field theories, string theory and gravity
- Holographic complexity and two identities of action growth
- Entanglement entropy and complexity for one-dimensional holographic superconductors
- Complexity growth with Lifshitz scaling and hyperscaling violation
- Path-integral complexity for perturbed CFTs
- Time evolution of complexity: a critique of three methods
- Computational complexity and black hole horizons
- Addendum to computational complexity and black hole horizons
- Entanglement is not enough
- Introduction to Holographic Superconductors
- Holographic Derivation of Entanglement Entropy from the anti–de Sitter Space/Conformal Field Theory Correspondence
- Fidelity susceptibility for Lifshitz geometries via Lifshitz holography
- Building a Holographic Superconductor
- Evolution of holographic entanglement entropy after thermal and electromagnetic quenches
This page was built for publication: On the complexity of a 2 + 1-dimensional holographic superconductor
