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

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. If it is a graviton field then it is not the curvature of space-time but the interaction of the graviton force particles. This Amrita talk was the only presentation from “Around sufficiently small particles space-time can be substantially curved giving rise to time dilation and space contraction effects as with particles moving at high velocities. Aspects of Quantum Field Theory in Curved Spacetime ebook Science Technology book download free ebooks By Rapidshare mediafire megaupload torrent 0521377684 , 052134400X PDF CHM books. 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). - Guillemin and Sternberg (1990), Symplectic Techniques in Physics. Its physics-related activities extend to the fields of academia, research and outreach. - Wald (1994), Quantum Field Theory in Curved Spacetime. If gravity is the curvature of space-time then how can it ever be described by a quantum theory. Shanti's paper was titled Relativity of Scale: Emergence of Quantum Behavior from Space-Time Geometry and Its Implications. Bratteli and Robinson (2003), Operator Algebras and Quantum Statistical Mechanics. In 1997, Juan Maldacena made the startling conjecture that theories of gravity on curved spaces are equivalent to ordinary quantum field theories confined to the boundaries of those spaces.