Spin-Foam Models and the Physical Scalar Product - INSPIRE

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Spin-Foam Models and the Physical Scalar Product

Emanuele Alesci
(
- Ecole Normale Superieure and
- Marseille, CPT
)
,
Karim Noui
(
- Tours U., CNRS
)
,
Francesco Sardelli
(
- Tours U., CNRS and
- Pisa U.
)

Jul, 2008

24 pages

Published in:

Phys.Rev.D 78 (2008) 104009

e-Print:

0807.3561 [gr-qc]

DOI:

10.1103/PhysRevD.78.104009

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Abstract: (arXiv)

This paper aims at clarifying the link between Loop Quantum Gravity and Spin-Foam models in four dimensions. Starting from the canonical framework, we construct an operator P acting on the space of cylindrical functions Cyl(

\Gamma

), where

\Gamma

is the 4-simplex graph, such that its ma- trix elements are, up to some normalization factors, the vertex amplitude of Spin-Foam models. The Spin-Foam models we are considering are the topological model, the Barrett-Crane model and the Engle-Pereira-Rovelli model. The operator P is usually called the 'projector' into physical states and its matrix elements gives the physical scalar product. Therefore, we relate the physical scalar product of Loop Quantum Gravity to vertex amplitudes of some Spin-Foam models. We discuss the possibility to extend the action of P to any cylindrical functions on the space manifold.

04.60.Pp
quantum gravity: loop space
model: topological
spin: foam
Barrett-Crane model
spin: network
vertex

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