Triangle Seminars
Monday, 13 Feb 2023
LonTI: Introduction to CFT and Conformal Bootstrap
Andreas Stergiou
(King's College)
Abstract:
These lectures aim to provide a self-contained introduction to the modern conformal bootstrap method. The study of conformal field theory (CFT) will first be motivated and the รขโฌลoldรขโฌย way of studying CFTs as endpoints of RG flows will be explained. The set of ideas necessary to understand the conformal bootstrap method will then be introduced, and both analytic and numerical implementations of the conformal bootstrap method will be discussed.
These lectures aim to provide a self-contained introduction to the modern conformal bootstrap method. The study of conformal field theory (CFT) will first be motivated and the รขโฌลoldรขโฌย way of studying CFTs as endpoints of RG flows will be explained. The set of ideas necessary to understand the conformal bootstrap method will then be introduced, and both analytic and numerical implementations of the conformal bootstrap method will be discussed.
Posted by: CityU2
Dissipation of oscillating homogeneous scalar condensates - unusual day and time
Wenyuan Ai
(Kings College London)
Abstract:
Scalar condensates are very common objects in cosmology. For example, the inflaton field can be viewed as a scalar condensate before it completely dissipates into ordinary particles during reheating. Axion condensates may have been formed through the vacuum-misalignment mechanism. In this talk, I will discuss the dissipation of oscillating homogeneous scalar backgrounds in flat spacetime and an expanding universe using nonequilibrium quantum field theory. The latter naturally captures the thermal effects and backreaction effects. For quasi-harmonic oscillations, we adopt the multi-scale analysis to obtain analytical approximate expressions for the self-consistent evolution of the scalar condensates in terms of the retarded self-energy and retarded proper four-vertex function, whose imaginary parts characterize different condensate decay channels. At finite temperatures, there are many new condensate decay channels that would be absent at zero temperature. These new channels could play an important role in ensuring a complete dissipation in an expanding universe.
The talk is based on the following two papers: JHEP 11 (2021) 160 [arXiv:2108.00254 [hep-ph]]; JHEP 11 (2022) 075 [arXiv:2202.08218 [hep-ph]]
Scalar condensates are very common objects in cosmology. For example, the inflaton field can be viewed as a scalar condensate before it completely dissipates into ordinary particles during reheating. Axion condensates may have been formed through the vacuum-misalignment mechanism. In this talk, I will discuss the dissipation of oscillating homogeneous scalar backgrounds in flat spacetime and an expanding universe using nonequilibrium quantum field theory. The latter naturally captures the thermal effects and backreaction effects. For quasi-harmonic oscillations, we adopt the multi-scale analysis to obtain analytical approximate expressions for the self-consistent evolution of the scalar condensates in terms of the retarded self-energy and retarded proper four-vertex function, whose imaginary parts characterize different condensate decay channels. At finite temperatures, there are many new condensate decay channels that would be absent at zero temperature. These new channels could play an important role in ensuring a complete dissipation in an expanding universe.
The talk is based on the following two papers: JHEP 11 (2021) 160 [arXiv:2108.00254 [hep-ph]]; JHEP 11 (2022) 075 [arXiv:2202.08218 [hep-ph]]
Posted by: IC
Wednesday, 15 Feb 2023
Tilting Space of Boundary Conformal Field Theories
๐ London
Vladimir Schaub
(KCL)
Abstract:
I will explain how, in boundary conformal field theories, global symmetries broken by boundary conditions generate a homogeneous conformal manifold. These manifolds are cosets, and I will give fully two worked out examples in the case of free fields of spin zero and one-half. These results give simple illustrations of the salient features of conformal manifolds, which I will review, while generalising to interacting setups.
I will explain how, in boundary conformal field theories, global symmetries broken by boundary conditions generate a homogeneous conformal manifold. These manifolds are cosets, and I will give fully two worked out examples in the case of free fields of spin zero and one-half. These results give simple illustrations of the salient features of conformal manifolds, which I will review, while generalising to interacting setups.
Posted by: QMW