Boundaries in Quantum Field Theories

Dear Colleagues,

The role of boundaries is crucial in many aspects of quantum field theories. The first example which comes to mind might be the Casimir effect, which motivated Symanzik in 1981 to formulate a systematic way to introduce boundaries in QFTs. He translated the presence of a boundary by means of a condition on the propagators, which vanish if calculated for points lying on opposite sides of the boundary. A lot has changed since then. Think, for instance, of topological field theories, which do not have local degrees of freedom, the only observables being geometrical, global holes of the manifolds, knots, etc. These are theories linked to vanishing Hamiltonian, where fields have no particle interpretation. Nonetheless, when a boundary is introduced, topological field theories acquire a physical life: Quantum spin Hall states appear on the edge of three-dimensional topological Chern–Simons theory. Similarly, topological insulators are described by adding a boundary to topological three- and four-dimensional BF theories. The wild world of two-dimensional conformal field theories was tamed by Chern–Simons theory having a cylinder as a boundary. Another outstanding example is given by AdS/CFT correspondence, or gauge/gravity duality, where a gravity bulk theory with a charged Reissner–Nordström black hole on a d+1 AdS spacetime is dual to its d-dimensional boundary, which is where gauge field theory stems from. This correspondence allows computing correlators in the strong coupling regime by means of their higher dimensional weak coupled counterpart. Born in a string theory framework, this duality has found a spectacular realization in condensed matter physics, where strongly correlated materials are quite difficult, if not impossible, to study differently.

Prof. Dr. Nicola Maggiore
Guest Editor

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• quantum field theory
• AdS/CFT
• AdS/CMT
• gauge/gravity
• holography
• edge states
• quantum spin hall
• topological insulators
• boundary algebra
• boundary conditions