Dr. Daniele Pranzetti

Contact

Dr. Daniele Pranzetti
University of Erlangen-Nürnberg
Institute for Quantum Gravity
Theoretical Physics III
Staudtstr. 7
D-91058 Erlangen
Germany

room: 02.701
phone: +49 9131 85 28468
email: daniele.pranzetti_at_gravity.fau.de

Research interests

My research focuses mainly on Quantum Gravity, with a particular interest on application to Black Hole Entropy and Evaporation. More in general, I am interested in all possible connections and interplay between Statistical Mechanics and General Relativity. Mathematical tools which I like to study and apply in a Quantum Gravity context include Quantum Groups, Operator Algebras and CFT.

Selected conference talks

  • Black hole entropy from KMS-states of quantum isolated horizons, July 2013, LOOPS 13, Perimeter Institute, Waterloo, Canada.
  • Dynamical evaporation of quantum horizons, July 2013, GR20, Warsaw, Poland.
  • Statistical mechanics of quantum horizons, June 2013, 2nd MCCQG, Veli Losinj, Croatia.
  • Canonical quantization of non-commutative holonomies in 2+1 loop quantum gravity, May 2011, LOOPS 11, CSIC, Madrid, Spain.
  • Static Isolated Horizons: SU(2) invariant phase space, quantization and black hole entropy, May 2011, Black Holes VIII, Niagara Falls, Ontario, Canada.

Selected publications

  • D. Pranzetti, Dynamical evaporation of quantum horizons, Class. Quant. Grav. 30, 165004 (2013), gr-qc/1211.2702.
  • D. Pranzetti, Dynamical evaporation of quantum horizons, Class. Quant. Grav. 30, 165004 (2013), gr-qc/1211.2702.
  • K. Noui, A. Perez and D. Pranzetti, Canonical quantization of non-commutative holonomies in 2+1 loop quantum gravity, JHEP 1110, 036 (2011), gr-qc/1105.0439.
  • J. Engle, K. Noui, A. Perez and D. Pranzetti, The SU(2) Black Hole entropy revisited, JHEP 1105, 016 (2011), gr-qc/1103.2723
  • J. Engle, K. Noui, A. Perez, D. Pranzetti, Black hole entropy from an SU(2)-invariant formulation of Type I isolated horizons, Phys. Rev. D82, 044050 (2010), gr-qc/1006.0634.
  • A. Perez, D. Pranzetti, On the regularization of the constraints algebra of Quantum Gravity in 2+1 dimensions with non-vanishing cosmological constant, Class. Quant. Grav. 27, 145009 (2010), gr-qc/1001.3292

Publication listing from INSPIRES

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