Quantum theory of fluctuating space?

In summary, the conversation discusses the problem of emergent space in Loop Quantum Gravity (LQG) and other approaches. Some progress has been made in Causal Dynamical Triangulation and LQG, with interesting analyses by Jonathan Engle and Hellmann. There are also some related papers on the topic. The difficulty of "quantizing" time or seeing time "emerge" may be a major obstacle in this area. This may explain why AdS/CFT has been more successful compared to other approaches.
  • #1
Physics Monkey
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Hi all,

This is partially motivated by the thread on Ashtekar's new review and by old results on emergent spacetime in condensed matter models.

Has any progress been made on the problem of emergent space (not emergent spacetime) in LQG or allied approaches? By this I mean problems that take as given a non-emergent time and are able to demonstrate two phases - one without a well defined spatial metric (non-geometric) and one with a spatial metric (geometric)?
 
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  • #2
In Causal dynamical triangulation something like deSitter space emerges at large scales
 
  • #4
Interesting. I would have thought this problem would be a lot easier if "quantizing" time or seeing time "emerge" was the critical stumbling block. I think this is part of the reason why AdS/CFT works so well while flat/? and dS/? are still in their infancy.
 

1. What is the "Quantum theory of fluctuating space"?

The Quantum theory of fluctuating space is a theoretical framework that attempts to merge quantum mechanics and general relativity to better understand the behavior of space and time at the smallest scales. It suggests that at the quantum level, space and time are not continuous and instead fluctuate or vibrate.

2. How does the Quantum theory of fluctuating space relate to the uncertainty principle?

The uncertainty principle, a fundamental principle of quantum mechanics, states that it is impossible to know both the position and momentum of a particle with absolute certainty. This is because at the quantum level, particles do not have a well-defined position or momentum. The Quantum theory of fluctuating space suggests that this uncertainty may be due to the fluctuations of space and time at the quantum level.

3. Can the Quantum theory of fluctuating space be tested or observed?

Currently, there is no direct experimental evidence for the Quantum theory of fluctuating space. However, scientists are working on developing experiments and observations that could potentially test its predictions. One proposed method is through the detection of gravitational waves, which are ripples in space-time predicted by general relativity.

4. What are the implications of the Quantum theory of fluctuating space?

If the Quantum theory of fluctuating space is confirmed, it would have significant implications for our understanding of the fundamental nature of reality. It could potentially lead to a better understanding of the origin of the universe, the behavior of black holes, and the unification of all the fundamental forces of nature.

5. Is the Quantum theory of fluctuating space widely accepted among scientists?

The Quantum theory of fluctuating space is a relatively new and still highly debated topic in physics. While some scientists find it to be a promising approach to solving the current issues in fundamental physics, others remain skeptical and argue that there is not enough evidence to support its claims. Further research and experimentation are needed to reach a consensus among the scientific community.

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