Relativity and the Quantum
— filed under: g-spotlight-c2
Relativistic quantum theory, string theory, loop quantum gravity and other attempts to unify Einstein's gravitation with quantum theory; the uses of extra dimensions; quantum gravity and the big bang
This page features an overview of all our spotlight texts dealing with the interplay of relativity and quantum theory - relativistic quantum theories as well as string theory, loop quantum gravity and other attempts to unify Einstein's theory of gravity with quantum theory. The spotlight texts already completed deal with General aspects of quantum gravity as well as with String theory, Loop quantum gravity as well as with Other approaches to the problem of quantum gravity. Physics in the background is the heading for texts providing background information that is helpful for a better understanding of the spotlight texts presented on this page.
General aspects of quantum gravity
Some aspects of quantum gravity that are independent of which of the possible approaches is chosen.
The principle of background independence - space and time are no fixed structure, but take part in the dynamical evolution of the world - and its consequences for the problem of quantum gravity
More about string theory - at present, mostly about the extra dimensions that play such a central role in that theory
Why our universe could possess dimensions beyond length, width and depth - and why those dimensions need not be noticeable in everyday life
Is our three-dimensional world embedded in a higher-dimensional space?
The intriguing possibility that the next generation of particle accelerators might produce - and allow the detection of - miniature black holes
Ways of detecting extra dimensions - and why the fact that our earth orbits the sun is a relevant data point
Why matters that seem rather complicated might be much more simple in higher dimensions
Loop quantum gravity
More about loop quantum gravity, in particular its cosmological applications.
The quantum structure of space according to loop quantum gravity
The collapsing and then re-expanding quantum universe that loop quantum gravity offers as a replacement of the standard big bang models
How loop quantum gravity could replace the absurd state of infinite density, the big bang with which, according to Einstein's relativity, the universe began
Other approaches to the problem of quantum gravity
While string theory and loop quantum gravity are the most prominent approaches to the problem of quantum gravity, they are not the only ones. Some other approaches are described in the following spotlights.
About attempts to understand the beginning of our universe using different approaches to quantum gravity
An overview of the causal set approach to a theory of quantum gravity
Physics in the background
Useful physics background information that may help with a better understanding of the other spotlight texts on this page.
About the path integral approach to quantum theory