Add to ORKGAfter a brief introduction, basic ideas of the quantum Riemannian geometry underlying loop quantum gravity are summarized. To illustrate physical ramifications of quantum geometry, the framework is then applied to homogeneous isotropic cosmology. Quantum geometry effects are shown to replace the big bang by a big bounce. Thus, quantum physics does not stop at the big-bang singularity. Rather there is a pre-big-bang branch joined to the current post-big-bang branch by a `quantum bridge'. Furthermore, thanks to the background independence of loop quantum gravity, evolution is deterministic across the bridge
A central feature of general relativity is that gravity is encoded in the very geometry of space-tim...
Quantum gravity is expected to be necessary in order to understand situations in which classical gen...
Quantum gravity is expected to be necessary in order to understand situations in which classical gen...
Loop quantum cosmology provides a new paradigm on the genesis of our universe in which the classical...
General relativity successfully describes space–times at scales that we can observe and probe today,...
General relativity successfully describes space–times at scales that we can observe and probe today,...
General relativity successfully describes space-times at scales that we can observe and probe today,...
General relativity successfully describes space–times at scales that we can observe and probe today,...
General relativity successfully describes space–times at scales that we can observe and probe today,...
Quantum gravity is expected to be necessary in order to understand situations in which classical gen...
Quantum gravity is expected to be necessary in order to understand situations in which classical gen...
Quantum gravity is expected to be necessary in order to understand situations where classical genera...
Quantum gravity is expected to be necessary in order to understand situations where classical genera...
Quantum gravity is expected to be necessary in order to understand situations in which classical gen...
Quantum gravity is expected to be necessary in order to understand situations where clas-sical gener...
A central feature of general relativity is that gravity is encoded in the very geometry of space-tim...
Quantum gravity is expected to be necessary in order to understand situations in which classical gen...
Quantum gravity is expected to be necessary in order to understand situations in which classical gen...
Loop quantum cosmology provides a new paradigm on the genesis of our universe in which the classical...
General relativity successfully describes space–times at scales that we can observe and probe today,...
General relativity successfully describes space–times at scales that we can observe and probe today,...
General relativity successfully describes space-times at scales that we can observe and probe today,...
General relativity successfully describes space–times at scales that we can observe and probe today,...
General relativity successfully describes space–times at scales that we can observe and probe today,...
Quantum gravity is expected to be necessary in order to understand situations in which classical gen...
Quantum gravity is expected to be necessary in order to understand situations in which classical gen...
Quantum gravity is expected to be necessary in order to understand situations where classical genera...
Quantum gravity is expected to be necessary in order to understand situations where classical genera...
Quantum gravity is expected to be necessary in order to understand situations in which classical gen...
Quantum gravity is expected to be necessary in order to understand situations where clas-sical gener...
A central feature of general relativity is that gravity is encoded in the very geometry of space-tim...
Quantum gravity is expected to be necessary in order to understand situations in which classical gen...
Quantum gravity is expected to be necessary in order to understand situations in which classical gen...