LEADER 03432cam a22003258a 4500
001 991001862479707536
008 121024s2012    enk      b    001 0 eng d
020   $a9780521114400 (hardback)
035   $ab14082676-39ule_inst
040   $aDip.to Fisica$beng
082 00$a531/.14$222
084   $aLC QC173.59.S65
084   $a53.1.5
245 00$aFoundations of space and time :$breflections on quantum gravity /$c[edited by] Jeff Murugan, Amanda Weltman and George F.R. Ellis
260   $aCambridge ;$aNew York :$bCambridge University Press,$c2012
300   $axiv, 437 p. :$bill. ;$c24 cm
504   $aIncludes bibliographical references and index
505 8 $aMachine generated contents note: 1. The problem with quantum gravity Jeff Murugan, Amanda Weltman and George F. R. Eliis; 2. A dialogue on the nature of gravity Thanu Padmanabhan; 3. Effective theories and modifications of gravity Cliff Burgess; 4. The small scale structure of spacetime Steve Carlip; 5. Ultraviolet divergences in supersymmetric theories Kellog Stelle; 6. Cosmological quantum billiards Axel Kleinschmidt and Hermann Nicolai; 7. Progress in RNS string theory and pure spinors Dimitri Polyakov; 8. Recent trends in superstring phenomenology Massimo Bianchi; 9. Emergent spacetime Robert de Mello Koch and Jeff Murugan; 10. Loop quantum gravity Hanno Sahlmann; 11. Loop quantum gravity and cosmology Martin Bojowald; 12. The microscopic dynamics of quantum space as a group field theory Daniele Oriti; 13. Causal dynamical triangulations and the quest for quantum gravity Jan Ambj˛rn, J. Jurkiewicz and Renate Loll; 14. Proper time is stochastic time in 2D quantum gravity Jan Ambjorn, Renate Loll, Y. Watabiki, W. Westra and S. Zohren; 15. Logic is to the quantum as geometry is to gravity Rafael Sorkin; 16. Causal sets: discreteness without symmetry breaking Joe Henson; 17. The Big Bang, quantum gravity, and black-hole information loss Roger Penrose; Index
520   $a"After almost a century, the field of quantum gravity remains as difficult and inspiring as ever. Today, it finds itself a field divided, with two major contenders dominating: string theory, the leading exemplification of the covariant quantization program; and loop quantum gravity, the canonical scheme based on Dirac's constrained Hamiltonian quantization. However, there are now a number of other innovative schemes providing promising new avenues. Encapsulating the latest debates on this topic, this book details the different approaches to understanding the very nature of space and time. It brings together leading researchers in each of these approaches to quantum gravity to explore these competing possibilities in an open way. Its comprehensive coverage explores all the current approaches to solving the problem of quantum gravity, addressing the strengths and weaknesses of each approach, to give researchers and graduate students an up-to-date view of the field"
650  0$aSpace and time
650  0$aQuantum gravity
700 1 $aMurugan, Jeff
700 1 $aWeltman, Amanda
700 1 $aEllis, George Francis Rayner
907   $a.b14082676$b02-04-14$c24-10-12
912   $a991001862479707536
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996   $aFoundations of space and time$9241136
997   $aUNISALENTO
998   $ale006$b24-10-12$cm$da  $e-$feng$genk$h0$i0