Is gravity a quantum phenomena or not?

In summary, this is what I have gathered: Sabine says that there is no theory of gravity at high energies, but John Donoghue says that the low energy effective theory is established and standard. It is not clear what Sabine means by "high energies."
  • #1
ftr
624
47
You Heard me.:smile:

Seriously, I have seen some so called low effective theories of gravity, so if they are any good why aren't they taken to be as established theories, since all other ones seem to be valid in some energy scale anyway. Although I do admit that I dislike this adding one more field on top of others to describe a new phenomenon while everything should be derived from some basic entity.As an example
https://arxiv.org/pdf/hep-th/0211072.pdf

P.S. I know of the graviton argument, but higgs was not discovered for many decades either.
 
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  • #2
Hi ftr:

I am not an expert, and I am sure what you are asking. I am guessing you want to know the current status of not-quite-theories concerning the unification of GR with QFT.

From a few conversations about black holes here on the PFs, I have learned that there are a few partial unifications that have some usefulness, but not yet any complete unification. A partial unification has been developed which includes that math for Hawking radiation. I think you might find the thread below of some interest.

Regards,
Buzz
 
  • #3
Yes, gravity is a quantum phenomenon, and the low energy effective theory is established and standard.

The paper you linked to is one such paper.

https://arxiv.org/abs/1209.3511
The effective field theory treatment of quantum gravity
John F. Donoghue

https://arxiv.org/abs/1702.00319
EPFL Lectures on General Relativity as a Quantum Field Theory
John F. Donoghue, Mikhail M. Ivanov, Andrey Shkerin

https://arxiv.org/abs/1105.3735
Theoretical Aspects of Massive Gravity
Kurt Hinterbichler
"The real underlying principle of GR has nothing to do with coordinate invariance or equivalence principles or geometry, rather it is the statement: general relativity is the theory of a non-trivially interacting massless helicity 2 particle. The other properties are consequences of this statement, and the implication cannot be reversed. As a quantum theory, GR is not UV complete. It must be treated as an effective field theory valid at energies up to a cutoff at the Planck mass ..."
 
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  • #4
atyy said:
Yes, gravity is a quantum phenomenon,

So what is this talk about reconciling QM and gravity. Do physicist have Aphasia.:smile:
 
  • #5
ftr said:
So what is this talk about reconciling QM and gravity. Do physicist have Aphasia.:smile:

For those who understand that we have a good low energy effective theory of gravity, what is meant that there is no good theory of gravity at high energies.
 
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  • #6
atyy said:
For those who understand that we have a good low energy effective theory of gravity, what is meant that there is no good theory of gravity at high energies.

Thanks atty, but it does not add up. Like I said many(all) theories are scale specific, if what you say is true somebody would have gotten the Noble and the theory would be the last chapters of QFT textbooks, wouldn't you say?
 
  • #7
BTW, atyy, I showed Sabine this thread and this is what she said(literally!)

"Of course it's not accepted as an established theory because there's no experimental evidence."

I am really surprised that nobody has an opinion on this fundamental issue here on PF.(aside from you/Buzz)
 
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  • #8
ftr said:
BTW, atyy, I showed Sabine this thread and this is what she said(literally!)

"Of course it's not accepted as an established theory because there's no experimental evidence."

I am really surprised that nobody has an opinion on this fundamental issue here on PF.(aside from you/Buzz)

Sabine is wrong (if she said that). There is experimental evidence - it's called general relativity.

More likely, you misunderstood her. Here she says the effective theory is fine (around 1:50-2:10):
 
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  • #9
Buzz Bloom said:
conversations about black holes here on the PFs,

As you can see there is even no consensus about low energy, let alone BH which will be impossible to test, period.
 
  • #10
You can see eg. the standard QFT text by Schwartz.

http://www.schwartzqft.com/index.html

Or section 23.5 of his notes http://isites.harvard.edu/fs/docs/icb.topic521209.files/QFT-Schwartz.pdf
 
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  • #11
Actually I have the book for a few months now but never noticed those two pages. I think she is careful not to say it is wrong but it is "not established".

I am still not sure what is going on since conflicting statements are made and it is not clear the context of those statement. But I hope more people jump in.
 

Related to Is gravity a quantum phenomena or not?

1. Is gravity a quantum phenomenon or a classical phenomenon?

This is a common question that arises when discussing the nature of gravity. The answer is not entirely clear, as there is ongoing research and debate in the scientific community. However, many scientists believe that gravity is a classical phenomenon, as it follows the laws of classical physics and is well-described by Isaac Newton's theory of gravity.

2. Can gravity be explained by quantum mechanics?

This is another frequently asked question about the connection between gravity and quantum mechanics. While some scientists have proposed theories that attempt to explain gravity using concepts from quantum mechanics, such as string theory, there is currently no widely accepted theory that fully explains gravity at a quantum level.

3. How does gravity fit into the standard model of particle physics?

The standard model of particle physics is a well-established theory that describes the fundamental particles and their interactions. However, it does not include gravity. Scientists are still working to develop a theory that can unify gravity with the other fundamental forces described by the standard model.

4. Are there any experiments that can test the quantum nature of gravity?

Currently, there are no experiments that can directly test the quantum nature of gravity. This is because the effects of gravity on a quantum scale are incredibly small and difficult to measure. However, there are ongoing efforts to develop experiments that could potentially provide evidence for a quantum theory of gravity.

5. What are the implications of a quantum theory of gravity?

If it is confirmed that gravity is a quantum phenomenon, it would have significant implications for our understanding of the universe. It could potentially lead to a deeper understanding of the fundamental laws of nature and help reconcile the seemingly contradictory theories of general relativity and quantum mechanics. It could also have practical applications, such as improving our understanding of black holes and the early universe.

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