Is QFT with curved spacetime the key to quantum gravity?

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In summary, there is a widely shared belief among Loop Quantum Gravity researchers that QFT should be constructed on a quantum dynamic spacetime, as it has not been successful to construct it on classical dynamic spacetime. This approach is being spearheaded by researchers such as Martin Bojowald, Laurent Freidel, Lee Smolin, Carlo Rovelli, Abhay Ashtekar, Thomas Thiemann, Rodolfo Gambini, Renate Loll, and their colleagues. However, there are still challenges and uncertainties in this approach, and other approaches, such as string theory, are also being pursued.
  • #1
misogynisticfeminist
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I was wondering, is there a possibillity that QFT with curved spacetime is a the path to unification? Also, what advances are there in constructing QFTs with dynamic spacetime? If this way is feasible, who are the people spearheading it?
 
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  • #2
misogynisticfeminist said:
I was wondering, is there a possibillity that QFT with curved spacetime is a the path to unification? Also, what advances are there in constructing QFTs with dynamic spacetime? If this way is feasible, who are the people spearheading it?

there is a widely shared hunch among Loop Quantum Gravity people that QFT should be constructed on a QUANTUM-dynamic spacetime, because it hasnt worked to construct it on non-quantum, or classical, dynamic spacetime.

the classical, unquantized, version of dynamic spacetime is called General Relativity, it was proposed in 1915.
So far no one has been able to construct QFT on the dynamic spacetime of Gen Rel.
QFT has been constructed only on rigid (flat or curved) spaces whose geometry is not dynamic but is fixed ahead of time.

so the intuition driving the LQG effort is that if we can just get a quantum theory of spacetime (a quantum version of Gen Rel) then it will be possible to build a QFT on it

First get the spacetime right, they say, then add matter to the picture.

when you here about current progress in LQG, it is important to remember that what they are developing is exactly this: a quantum theory of dynamical spacetime geometry

(Gen Rel says that gravity is geometry, in the way spacetime is curved, and so a quantum gravity theory must be a quantum geometry theory----this is the LQG point of view, so that is the approach they take)

other people may try to represent the "force" of gravity in context of rigid space, for instance in flat space. this is yet another approach, probably some other poster would like to tell you about that approach
 
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  • #3
Marcus, the idea of QFT in curved spacetime is not about rigid spacetime but about mating QFT to GR with its dynaminc spacetime. There are many problems with this, such as the instability of spinors under general diffeomorphisms and the apparent unrenormalizabilty of this meld in its perturbative form, which given that neither QFT nor GR are really known non-perturbatively, would seem to be a killer. But work goes on, and don't forget the Schroedenger-Einstein nonsymmetric theory! I'll bet Shiflett is trying to quantize that right now!
 
  • #4
misogynisticfeminist said:
Also, what advances are there in constructing QFTs with dynamic spacetime? If this way is feasible, who are the people spearheading it?

it is at the stage of constructing the quantum dynamic spacetime
(which you must do first before putting on matter)
the people spearheading are Martin Bojowald, Laurent Freidel, Lee Smolin, Carlo Rovelli, Abhay Ashtekar, Thomas Thiemann, Rodolfo Gambini, Renate Loll, and their students and colleagues that write papers with them. You can generate a list by doing a search at arxiv.org for papers by these people and seeing who has co-authored with them.

Some, like Bojowald and Freidel in separate efforts, have started putting matter-fields in the picture.
 
  • #5
selfAdjoint said:
Marcus, the idea of QFT in curved spacetime is not about rigid spacetime but about mating QFT to GR with its dynaminc spacetime.

thanks for the correction. Glad someone else is helping answer. I was confusing this with something Haelfix said about picking out a set of interesting curved geometries and constructing string theory case by case on curved (but rigid) geometries. maybe that is done too.

I am delighted to know that people are trying to mate QFT to GR with its dynamic spacetime!

so I guess I would like to subscribe to misogynist's question: who are the people spearheading it?
 
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  • #6
Marcus, the idea of QFT in curved spacetime is not about rigid spacetime but about mating QFT to GR with its dynaminc spacetime. There are many problems with this, such as the instability of spinors under general diffeomorphisms and the apparent unrenormalizabilty of this meld in its perturbative form, which given that neither QFT nor GR are really known non-perturbatively, would seem to be a killer. But work goes on, and don't forget the Schroedenger-Einstein nonsymmetric theory! I'll bet Shiflett is trying to quantize that right now!
 
  • #7
marcus said:
thanks for the correction. Glad someone else is helping answer. I was confusing this with something Haelfix said about picking out a set of interesting curved geometries and constructing string theory case by case on curved (but rigid) geometries. maybe that is done too.

I am delighted to know that people are trying to mate QFT to GR with its dynamic spacetime!

so I guess I would like to subscribe to misogynist's question: who are the people spearheading it?

I don't know who the current people are, but I have a book in the London Mathematical Society Student Texts series called Aspects of Quantum Field Theory in Curved Space-Time, by Stephan A. Fulling. Its biliography goes up to the middle 1980's, and one that caught my eye was by H. Rumpf, who has several, "Self-adjointness based quantum field theory in deSitter and antideSitter space-times", Phys Rev. D 24, 275-289 :wink: . Staying with the S's, I note G. L. Sewell's 1982 paper "Quantum Fields on manifolds: PCT and gravitationally induced thermal states", Ann. Phys.(NY) 141, 201-224.

I do want to add, though, that in his conclusion, after noting the successes of the QFT on curved space-time program, Fulling states:

Nevertheless, one cannot yet feel confident that this theory rests on a sufficiently sound physical base. One wants to understand how it emerges as an approximation to a more fundamental theory in which gravity is itself quantized.

So don't sell your LQG shares yet!
 
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1. What is QFT with curved spacetime?

QFT (quantum field theory) with curved spacetime is a theoretical framework that combines quantum mechanics and special relativity to describe the behavior of particles in a curved spacetime, as described by general relativity. It is used to study the effects of gravity on the behavior of quantum particles.

2. How is QFT with curved spacetime different from traditional QFT?

In traditional QFT, particles are described as excitations of fields in flat, Minkowski spacetime. In QFT with curved spacetime, the fields and particles are described in a curved spacetime, which is more appropriate for studying the effects of gravity on particle behavior.

3. What are the challenges of studying QFT with curved spacetime?

One of the main challenges is the mathematical complexity of working with curved spacetime. Another challenge is the need to reconcile the principles of quantum mechanics and general relativity, which have different interpretations and predictions at the quantum level.

4. How is QFT with curved spacetime relevant in cosmology?

QFT with curved spacetime is essential for understanding the behavior of particles in the early universe, where the effects of gravity were significant. It is also used to study the evolution of the universe and the formation of large-scale structures.

5. Are there any experimental confirmations of QFT with curved spacetime?

There have been several experimental confirmations of the predictions of QFT with curved spacetime, such as the Hawking radiation from black holes and the effects of gravity on the energy levels of particles. However, due to the complexity of the theory, there are still many open questions and ongoing research in this field.

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