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Quantum Fields in Curved Space N. D. Birrell, P. C. W. Davies
Publisher: Cambridge University Press

Quantum field theory in curved space time. A very thin rubber sheet is a pretty good . Us that “facts” are very fluid in nature and “verification” is a matter of recordable duplication of observable phenmomena (see: T. Obviously space is part of spacetime and so the effect of the curvature of spacetime is usually (but not always) that we can no longer think of space as being flat (mathematically speaking). I can't do the math, but I suspect that gravity waves from distant events are unlikely to penetrate spacetime that is locally curved by strong gravitational fields. Http://rapidshare.de/files/23029414/DeWitt._Quantum_field_theory_in_curved_spacetime__PR19__1975__T__63s__4AH.rar 0.76 MB. The theory describes space as a continuous, quantized, flexible 'field;' nowhere divided or divisible, but capable of discrete motions of compression and rebound. Jacobson Introduction to Quantum Fields in Curved Spacetime and the Hawking Effect - 2004). Quantum field theory in curved spacetime predicts that event horizons emit radiation like a black body with a finite temperature. There is an entire field of study dedicated to the development of quantum field theories in general relativistic -- including time dependent -- backgrounds, called Quantum Field Theory in Curved Spacetime. An interesting approach to the black hole information paradox is contained in a recent preprint: "Black holes Conserve Information in Curved-Space Quantum Field Theory", by Christoph Adami and Greg L. A recent study of gamma-ray bursts finds that spacetime is smoother on the quantum scale than expected. The Skyrmion as a fermi field enters the picture when this potential energy portion has Bogoliubov coefficients, which both define quantum field in curved spacetime and superconductivity. Perhaps suggesting a less dense area in space say nearer the center of a galaxy v/s the extreme perimeter light could travel faster or slower until it comes to the field we know and love here called Constants. Quantum Wave Theory proposes a new model of space. ItAbstractThese notes are an expanded version of lectures given at the Croatian School on Black Holes atTrpanj, June 21-25, 2010. Since there is no complete quantum theory of gravity, they used an already well-accepted approach, called quantum field theory in curved space time(QUIETS). As explained in the discussion of the stress-energy curvature in the previous post, in addition to the gravity mediators (gravitons) presumably being quantized rather than a continuous or continuum curved spacetime, there is the Quantum field theory is suggestive that the correct Feynman diagram for any interaction is not a continuous, smooth curve, but instead a number of steps due to discrete interactions of the field quanta with the charge (i.e., gravitational mass). Quantum Field Theory in Curved Space Tim. Relativity tells us that spacetime is curved, and that curvature causes the force of gravity. The second input is to take some spacetime manifold (like flat Minkowski space or something more curved) and attach a C*-algebra to each open subset in a compatible way.