Covariant Loop Quantum Gravity
Covariant Loop Quantum Gravity
Quantum gravity is among the most fascinating problems in physics. It modifies our understanding of time, space and matter. The recent development of the loop approach has allowed us to explore domains ranging from black hole thermodynamics to the early Universe. This book provides readers with a simple introduction to loop quantum gravity, centred on its covariant approach. It focuses on the physical and conceptual aspects of the problem and includes the background material needed to enter this lively domain of research, making it ideal for researchers and graduate students. Topics covered include quanta of space; classical and quantum physics without time; tetrad formalism; Holst action; lattice QCD; Regge calculus; ADM and Ashtekar variables; Ponzano-Regge and Turaev-Viro amplitudes; kinematics and dynamics of 4D Lorentzian quantum gravity; spectrum of area and volume; coherent states; classical limit; matter couplings; graviton propagator; spinfoam cosmology and black hole thermodynamics.
- An elementary introduction to quantum gravity with all necessary background material
- Strong emphasis is placed on conceptual and physical aspects, rather than intricate mathematics
- An up-to-date summary of recent developments in quantum gravity
Product details
November 2014Hardback
9781107069626
266 pages
254 × 194 × 17 mm
0.77kg
96 b/w illus. 20 exercises
Available
Table of Contents
- Preface
- Part I. Foundations:
- 1. Spacetime as a quantum object
- 2. Physics without time
- 3. Gravity
- 4. Classical discretization
- Part II. The 3D Theory:
- 5. 3D Euclidean theory
- 6. Bubbles and cosmological constant
- Part III. The Real World:
- 7. The real world:
- 4D Lorentzian theory
- 8. Classical limit
- 9. Matter
- Part IV. Physical Applications:
- 10. Black holes
- 11. Cosmology
- 12. Scattering
- 13. Final remarks
- References
- Index.
