The forum discussion centers on the complexities of the path integral (PI) formulation in quantum gravity, particularly in relation to Causal Dynamical Triangulations (CDT) and its comparison with other theories such as Loop Quantum Gravity (LQG). Participants emphasize that CDT is not a discrete theory of gravity but rather a low-energy limit of continuum theories, with candidates like Asymptotic Safety and Horava-Lifgarbagez gravity mentioned. The discourse highlights the importance of unitarity and the challenges in deriving the path integral from classical actions, asserting that the validity of these theories is ultimately determined by experimental results rather than mathematical proofs.
PREREQUISITESThis discussion is beneficial for theoretical physicists, researchers in quantum gravity, and students interested in advanced concepts of path integrals and their applications in modern physics.
marcus said:I was watching the second Causets lecture (Fay Dowker and Rafael Sorkin) and I was struck by the fact that in Causets there is even a third kind of discreteness. Or seems to be. It seems not to be entirely analogous to the other two---the discreteness here seems to be more literal than in Lqg and Cdt. And yet the theory also has Lorentz invariance.
tom.stoer said:Of course CDT (and many other theories) are somehow ad hoc. Most theories are not proved (nor disproved) mathematically but physically via experiments. As soon as this happens nobody cares about the derivation, the axioms and the proofs (the QCD PI is ill defined but it works in the perturbative regime; there it has produced reasonable physical results plus some Nobel prizes; funny, isn't it?)
atyy said:I just found out Zohren's supervisor was Dowker, even though his work was with Ambjorn and colleagues. http://arxiv.org/abs/0905.0213
It is a common misconception that in order to study quantum gravity one needs gravitons; neither gravitons nor perturbation theory is required. It's just the other way round: especially CDT and LQG try to avoid using gravitons as perturbative degrees of freedom defined on a background; that is the core message of background independence!Micha said:Great, so these guys do quantum gravity but they don't calculate the properties of gravitons. Regarding background independence have these guys ever heard of pertubation theory?
I think "these guys" know perfectly well what they are doing; I only said that "I am not sure ..." and that "I don't know ..."; please note the difference :-)Micha said:Unitary is a basic requirement of any theory which claims to be quantum mechanical. It just means that probabilities add up to 1. So it has to be there no matter how you write things down.
Right, background independence is the new religion.tom.stoer said:It is a common misconception that in order to study quantum gravity one needs gravitons; neither gravitons nor perturbation theory is required. It's just the other way round: especially CDT and LQG try to avoid using gravitons as perturbative degrees of freedom defined on a background; that is the core message of background independence!
tom.stoer said:I think "these guys" know perfectly well what they are doing; I only said that "I am not sure ..." and that "I don't know ..."; please note the difference :-)
Micha said:Right, background independence is the new religion.
300 years of successful pertubation theory are thrown out of the window.
Micha said:Unitary is a basic requirement of any theory which claims to be quantum mechanical. It just means that probabilities add up to 1. So it has to be there no matter how you write things down.
Lubos said:It works but many people - including people often considered to be physicists - completely misunderstand the necessary yet somewhat counter-intuitive conditions and subtle mechanisms that make it work
...
how these fundamental features are being messed with in the "discrete" approaches to quantum gravity, among various other memes whose goal is to rape and distort the basic principles of physics.
tom.stoer said:Regarding Lubos: I agree that he is a very talented physicist, but I think he is rather arrogant and even he has certain blind spots. He knows a lot but he is certainly not Doctor Know. Regarding conceptual discussions I usually trust the experts in a certain field; as Lubos is not an expert in CDT ...
as usual - unfortunately. I think he is blind in a certain sense: he is not willing to see that others are much more open minded regarding weaknesses of their approaches than HE is with HIS approach. I bet asking Loll regarding open issues in CDT you will get a list of questions; try the same with Lubos and strings ... (this could be an interesting experiment; who is willing to start?)Fra said:But Lubos comments generealizes his critique beyond sense.
tom.stoer said:I studied QCD for years and I learned that perturbation theory is only valid in a certain regime; it is neither helpful to study the low-energy limit (confinement, bound states, hadron masses, form factors, ...) nor to study conceptual issues (gauge fixing ambiguities, ...). Unfortunately reading standard textbooks one could get a different impression :-(
Micha said:How do the CDT people ensure that their path integral is unitary and does not contain
superluminal effects?
If these conditions are not met there is no hope that the theory is confirmed by experiment.
tom.stoer said:as usual - unfortunately. I think he is blind in a certain sense: he is not willing to see that others are much more open minded regarding weaknesses of their approaches than HE is with HIS approach. I bet asking Loll regarding open issues in CDT you will get a list of questions; try the same with Lubos and strings ... (this could be an interesting experiment; who is willing to start?)
CDT is able to reproduce a macroscopic deSitter space; afaik no other QG approach was able to come as close to a reasonable classical limit w/o fine tuning. I think CDT will not be the holy grail in QG, but I am sure it is not flawed.Micha said:The problem with "trust the experts in a certain field" is that it won't work if the whole field is flawed. ... But I claim you would get pretty much the same answers from another top shot, but very polite physicist, which is Nima Arkani-Hamed.
marcus said:To expand on your comment, there is a lot of sharing between Causets and CDT. After Joe Henson had done Causets for some years and co-authored with Sorkin and with Dowker, he took a postdoc with Renate Loll at Utrecht. Then moved on to Perimeter where he has done both. Loll has had Dowker come to Utrecht to give seminars. David Rideout has programmed cluster/supercomputer tools for several QG models including both of these (so I understand from Steve Carlip). Perhaps Causets and CDT have the kinship of both being "path integral" or sum over histories (SoH) approaches.
Zohren certainly has co-authored a lot on CDT with Loll, Ambjorn et al. I hadn't realized that he was a Dowker PhD. You've probably noticed how Loll PhDs and former postdocs have crossed over into Asymptotic Safety too.
Micha said:The problem with "trust the experts in a certain field" is that it won't work if the whole field is flawed. That it is what Lubos claims and I would like to encourage you to seriously consider the possibility.
I agree Lubos is not an easy character. But I claim you would get pretty much the same answers from another top shot, but very polite physicist, which is Nima Arkani-Hamed.
Standard textbooks do not care about quantizing gravity. Perturbation theory works only if you either restrict to tree graphs or if you accept an unphysical cutoff that spoils all symmetries of the quantum theory. "Low-energy" in the classical sense is no longer applicable in QG or QFT if you go beyond tree-level.Micha said:It works well in QED where the low energy coupling is week. As we all know gravity is weak in the low energy limit as well so pertubation theory should work here too.
In fact every textbook about GR derives gravitational waves as pertubations of the metric tensor around the flat space Minkowksi metric.
Can you tell us more about these ideas?atyy said:Lubos has told me he thinks CDT cannot be an approximation to Asymptotic Safety, but I didn't quite understand the reason.
tom.stoer said:Standard textbooks do not care about quantizing gravity. Perturbation theory works only if you either restrict to tree graphs or if you accept an unphysical cutoff that spoils all symmetries of the quantum theory. "Low-energy" in the classical sense is no longer applicable in QG or QFT if you go beyond tree-level.
I would say that the lessons we have learned in the last 50 years is that perturbative quantum gravity is nonsense.
tom.stoer said:Can you tell us more about these ideas?
Of course I was talking about quantum gravity. In standard QFT perturbation theory can make sense, but even there we have to be careful: given that each individual term in the perturbation series is finite (after renormalization) there is no reason why the perturbation series as a whole shall converge. That means that on a fundamental level the whole perturbation series is flawed; again this is something which is omitted in standard textbooks.Micha said:Ok, great, so pertubation theory only works on tree level. Feynman should give back his Nobel Price and Feynman graphs never existed.
You should have made a good argument specifically for gravity. But unfortunately you didn't and wrote about QFT in general.