Self-binding energies in AdS
Copyright policy )Self-binding energies in AdS
AbstractThe Positive Binding Conjecture is a proposed formulation of the Weak Gravity Conjecture appropriate to Anti de-Sitter (AdS) space. It proposes that in a consistent gravitational theory, with a U(1) gauge symmetry, there must exist a charged particle with non-negative self-binding energy. In order to formulate this as a constraint on a given effective theory, we calculate the self-binding energy for a charged particle in AdS4and AdS5. In particular, we allow it to couple to an additional scalar field of arbitrary mass. Unlike the flat-space case, even when the scalar field is massive it contributes significantly to the binding energy, and therefore is an essential component of the conjecture. In AdS5, we give analytic expressions for the self-binding energy for the cases when the scalar field is massless and when it saturates the Breitenlohner-Freedman (BF) bound, and in AdS4when it is massless. We show that the massless case reproduces the flat-space expressions in the large AdS radius limit, and that both analytic cases lead to vanishing total self-binding energy for BPS particles in example supersymmetric models. For other masses of the scalar we give numerical expressions for its contribution to the self-binding energy.
High Energy Physics - Theory, FOS: Physical sciences, Effective Field Theories, String and superstring theories in gravitational theory, QC770-798, String and superstring theories; other extended objects (e.g., branes) in quantum field theory, Two-dimensional field theories, conformal field theories, etc. in quantum mechanics, High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), High Energy Physics - Theory (hep-th), supergravity models, Nuclear and particle physics. Atomic energy. Radioactivity, effective field theories, string and brane phenomenology, Quantization of the gravitational field, String and Brane Phenomenology, Supergravity Models
High Energy Physics - Theory, FOS: Physical sciences, Effective Field Theories, String and superstring theories in gravitational theory, QC770-798, String and superstring theories; other extended objects (e.g., branes) in quantum field theory, Two-dimensional field theories, conformal field theories, etc. in quantum mechanics, High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), High Energy Physics - Theory (hep-th), supergravity models, Nuclear and particle physics. Atomic energy. Radioactivity, effective field theories, string and brane phenomenology, Quantization of the gravitational field, String and Brane Phenomenology, Supergravity Models
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