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Exploring Supersymmetric Gravity in Black Hole Systems

Investigating connections between black hole entropy, topological strings, and quantum gravity to advance understanding of macroscopic and microscopic black objects.

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Exploring Supersymmetric Gravity in Black Hole Systems

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  1. MI12 Supersymmetry, Black Holes and Quantum Gravity Motivation: Black holes have been one of the most intriguing physical phenomena since their earliest description in general relativity. Although first discarded by some as mere theoretical aberrations, their real physical existence is by now supported by various experimental data. There also exists an impressive analogy between the laws of Classical Thermodynamics and the laws of the Black Hole Mechanics. I. F. Mirabel, Black holes: from stars to galaxies, astro-ph/0612188; R. Genzel and V. Karas, The Galactic Center, 0704.1281; J. Kormendy, The Stellar-Dynamical Search for Supermassive Black Holes in Galactic Nuclei, astro-ph/0306353 Area of research: Supersymmetric theory of gravity Connection between the black hole entropy and topological string partition functions Connection between macroscopic and microscopic interpretations of black objects Multicenter black hole systems

  2. Current topics of research 1] The systematical construction of the first order for-malism for multi-centered black holes with flat three dimensional base-space in N = 2, D = 4 ungauged Maxwell-Einstein supergravity 2] Investigation of the "horizontal" symmetry of multi-centered soultions in supergravity theories in D=4. 3] Investigation of the "black hole / qubit correspondence", relating the mathematical structures underlying the entropy of extremal black holes with Quantum Information Theory and the entang-lement of qubits, or more generally of qubits. 4] Investigation of non-linear (triple) structures in supergravities, such as the so-called "Freudenthal duality", defined as an anti-involution on the dyonic charge vector in d = 4 space-time dimensions for Lie U-algebras "of type e7".

  3. Current topics of research 5] Analysis of the stratification structure of the space of fluxes associated to black p-branes in supergravities in any dimension, and with any amount of supersymmetry. 6] Analysis of the geometry of the scalar fields coupled to Einstein supergravity, with a maximally covariant subsequent formulation of the associated non-linear sigma model. 7] Investigation of D = 4, N >1 extended supergravities (and related compactifications of superstring theory), with particular focus on their consistent truncation to models of N = 1 supergravity, relevant for phenomenological and cosmological applications. These features of supergravity, following from the electric-magnetic duality, may be useful in other applications, like stabilization of moduli, and in studies of non-perturbative black-hole solutions of supergravity/string theory.

  4. Dissemination Activity • The LNF Spring Institute on the physics of LHC • 14–18 May 2012 • Nanoscience and Nanotechnology 2011 • 19–23 September 2011 • Quantum Field Theory Aspects of Condensed Matter Physics • 6–9 September 2011 • Two Days in Quantum Field Theory • 10–11 January 2011 • The XVI LNF Spring School "Bruno Touschek" in Nuclear, Subnuclear and Astroparticle Physics • 7–11 May 2012 • Black Objects in Supergravity School (BOSS) • 9–13 May 2011

  5. Proceedings Supersymmetric Gravity and Black Holes Proceedings of the INFN-Laboratori Nazionali di Frascati School on the Attractor Mechanism 2009 Series: Springer Proceedings in Physics, Vol. 142 Bellucci, Stefano (Ed.) 2012, 2012, Approx. 320 p.

  6. Proceedings Self-Assembly of Nanostructures The INFN Lectures, Vol. III Series: Lecture Notes in Nanoscale Science and Technology, Vol. 12 Bellucci, Stefano (Ed.) 2012, 2012, XI, 267 p. 163 illus., 67 in color.

  7. Proceedings Physical Properties of Ceramic and Carbon Nanoscale Structures The INFN Lectures, Vol. II Series: Lecture Notes in Nanoscale Science and Technology, Vol. 11 Bellucci, Stefano (Ed.) 1st Edition., 2011, XIV, 280 p.

  8. Principal Investigator: Sergio Ferrara Participants: CERN, INFN Supersymmetry, Quantum Gravity and Gauge Fields Carlo Angelantonj University & INFN Torino Stefano Bellucci INFN, Frascati National Laboratories Massimo Bianchi University & INFN Roma "Tor Vergata" Anna Ceresole INFN & University Torino Gianguido Dall'Agata University & INFN Padova Jose Francisco Morales Morera INFN Roma "Tor Vergata" Massimo Porrati New York University & INFN Pisa Augusto Sagnotti (Scientist in charge) Scuola Normale Superiore & INFN Pisa

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