Spacetime geometry from algebra: spin foam models for non-perturbative quantum gravity
Spacetime geometry from algebra: spin foam models for non-perturbative quantum gravity is a scholarly work by Daniele Oriti, published in 2001 in ''Reports on Progress in Physics''. The main subjects of the publication include semiclassical gravity, quantum mechanics, quantum, holographic principle, spin foam, path integral, Immirzi parameter, Euclidean quantum gravity, group field theory, loop quantum gravity, gravity, quantum gravity, spin network, quantum process, algebra, Hořava–Lifshitz gravity, physics, open quantum system, deformation quantization, quantum geometry, classical mechanics, and theoretical physics. The authors describe the general formalism and\nideas of spin foam models, the picture of quantum geometry emerging from them,\nand give a review of the results obtained so far, in both the Euclidean and\nLorentzian case.