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Classical Setting and Effective Dynamics for Spinfoam Cosmology

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arxiv 1111.2867 v2 pith:MCMF34JY submitted 2011-11-11 gr-qc hep-th

Classical Setting and Effective Dynamics for Spinfoam Cosmology

classification gr-qc hep-th
keywords canonicaldynamicsgraphvertexamplitudeeffectivehamiltoniansetting
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We explore how to extract effective dynamics from loop quantum gravity and spinfoams truncated to a finite fixed graph, with the hope of modeling symmetry-reduced gravitational systems. We particularize our study to the 2-vertex graph with N links. We describe the canonical data using the recent formulation of the phase space in terms of spinors, and implement a symmetry-reduction to the homogeneous and isotropic sector. From the canonical point of view, we construct a consistent Hamiltonian for the model and discuss its relation with Friedmann-Robertson-Walker cosmologies. Then, we analyze the dynamics from the spinfoam approach. We compute exactly the transition amplitude between initial and final coherent spin networks states with support on the 2-vertex graph, for the choice of the simplest two-complex (with a single space-time vertex). The transition amplitude verifies an exact differential equation that agrees with the Hamiltonian constructed previously. Thus, in our simple setting we clarify the link between the canonical and the covariant formalisms.

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Cited by 2 Pith papers

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  1. Toller matrices and the Feynman $i\varepsilon$ in spinfoams

    gr-qc 2026-04 unverdicted novelty 7.0

    Toller matrices T^(±) in causal spinfoam amplitudes satisfy T^(+) + T^(-) = D and admit equivalent definitions via analyticity, iε prescription, and boost-eigenvalue integrals that reproduce the Euclidean-to-Lorentzia...

  2. Area bounds and gauge fixing: alternative canonical variables for loop gravity

    gr-qc 2026-04 unverdicted novelty 6.0

    New canonical variables for loop gravity give analytical area bounds proving a non-zero lower limit in two-vertex models and ease gauge fixing.