Measuring Spacetime: From the Big Bang to Black Holes
- 24 May 2002
- journal article
- review article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 296 (5572) , 1427-1433
- https://doi.org/10.1126/science.1072184
Abstract
Space is not a boring static stage on which events unfold over time, but a dynamic entity with curvature, fluctuations, and a rich life of its own. Spectacular measurements of the cosmic microwave background, gravitational lensing, type Ia supernovae, large-scale structure, spectra of the Lyman α forest, stellar dynamics, and x-ray binaries are probing the properties of spacetime over 22 orders of magnitude in scale. Current measurements are consistent with an infinite flat everlasting universe containing about 30% cold dark matter, 65% dark energy, and at least two distinct populations of black holes.Keywords
This publication has 37 references indexed in Scilit:
- Extra Dimensions and Warped GeometriesScience, 2002
- Testing the Friedmann equation: The expansion of the universe during big-bang nucleosynthesisPhysical Review D, 2002
- Constraints on the Long‐Range Properties of Gravity from Weak Gravitational LensingThe Astrophysical Journal, 2001
- Cosmic Microwave Background Constraints on a Baryonic Dark Matter–dominated UniverseThe Astrophysical Journal, 2001
- Weak-Lensing Study of Low-Mass Galaxy Groups: Implications for Ω[TINF][ITAL]m[/ITAL][/TINF]The Astrophysical Journal, 2001
- Boomerang Data Suggest a Purely Baryonic UniverseThe Astrophysical Journal, 2000
- The Mass-to-Light Function: Antibias and ΩmThe Astrophysical Journal, 2000
- Astrophysical evidence for the existence of black holesClassical and Quantum Gravity, 1999
- Can the Universe create itself?Physical Review D, 1998
- Constraints on the Topology of the Universe from the 2 Year COBE DataThe Astrophysical Journal, 1995