Inflationary Cosmology and Quantization Ambiguities in Semi-Classical
  Loop Quantum Gravity

A. Ashtekar; A. Ashtekar; A. Ashtekar; A.D. Linde; C. Rovelli; C. Rovelli; C. Rovelli; D.N. Spergel; David J. Mulryne; G.M. Hossain; H.V. Peiris; James E. Lidsey; K. Krasnov; M. Bojowald; M. Bojowald; M. Bojowald; M. Bojowald; M. Bojowald; M. Bojowald; M. Bojowald; M. Bojowald; M. Bojowald; M.S. Madsen; Martin Bojowald; P. Singh; Parampreet Singh; Reza Tavakol; S. Tsujikawa; T. Thiemann; T. Thiemann; T. Thiemann

research

Inflationary Cosmology and Quantization Ambiguities in Semi-Classical Loop Quantum Gravity

Authors: A. Ashtekar
A. Ashtekar
A. Ashtekar
A.D. Linde
C. Rovelli
C. Rovelli
C. Rovelli
D.N. Spergel
David J. Mulryne
G.M. Hossain
H.V. Peiris
James E. Lidsey
K. Krasnov
M. Bojowald
M. Bojowald
M. Bojowald
M. Bojowald
M. Bojowald
M. Bojowald
M. Bojowald
M. Bojowald
M. Bojowald
M.S. Madsen
Martin Bojowald
P. Singh
Parampreet Singh
Reza Tavakol
S. Tsujikawa
T. Thiemann
T. Thiemann
T. Thiemann
Publication date: 1 January 2004
Publisher: 'American Physical Society (APS)'
Doi

Abstract

In loop quantum gravity, modifications to the geometrical density cause a self-interacting scalar field to accelerate away from a minimum of its potential. In principle, this mechanism can generate the conditions that subsequently lead to slow-roll inflation. The consequences for this mechanism of various quantization ambiguities arising within loop quantum cosmology are considered. For the case of a quadratic potential, it is found that some quantization procedures are more likely to generate a phase of slow--roll inflation. In general, however, loop quantum cosmology is robust to ambiguities in the quantization and extends the range of initial conditions for inflation.Comment: 15 pages, 8 figure