Modern canonical quantum general relativity /

Modern physics rests on two fundamental building blocks: general relativity and quantum theory. General relativity is a geometric interpretation of gravity while quantum theory governs the microscopic behaviour of matter. Since matter is described by quantum theory which in turn couples to geometry,...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Thiemann, Thomas
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Cambridge : Cambridge University Press, 2007.
Colección:Cambridge monographs on mathematical physics.
Temas:
Quantum theory.
General relativity (Physics)
Théorie quantique.
Relativité générale (Physique)
SCIENCE > Physics > Quantum Theory.
Quantengravitation
Loop
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Defining quantum gravity
  • Classical Hamiltonian formulation of general relativity
  • The problem of time, locality, and the interpretation of quantum mechanics
  • The programme of canonical quantisation
  • The new canonical variables of Ashtekar for general relativity
  • Foundations of modern canonical quantum general relativity
  • Step I : the holonomy-flux algebra
  • Step II : quantum algebra
  • Step III : representation theory
  • Step IV : (1) implementation and solution of the kinematical constraints
  • Step IV (2) : impelementation and solution of the Hamiltonian constraint
  • Step V : semiclassical analysis
  • Physical applications
  • Extension to standard matter
  • Kinematical geometrical operators
  • Spin foam models
  • Quantum black hole physics
  • Applications to particle physics and quantum cosmology
  • Loop quantum gravity phenomenology
  • Mathematical tools and their connection to physics
  • Tools from general topology
  • Differential, Riemannian, symplectic, and complex geometry
  • Semianalytic category
  • Elements of fibre bundle theory
  • Holonomies on non-trivial fibre bundles
  • Geometric quantisation
  • The Dirac algorithm for field theories with constraints
  • Tools from measure theory
  • Key results from functional analysis
  • Elementary introduction to Gel'fand theory for Abelian C*-algebras
  • Bohr compactification of the real line
  • Operator *-algebras and spectral theorem
  • Refined algebraic quantisation (RAQ) and direct integral decomposition (DID)
  • Basics of harmonic analysis on compact Lie groups
  • Spin-network functions for SU (2)
  • + Functional analytic description of classical connection dynamics.

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