tag:blogger.com,1999:blog-2846514233477399562.post3885134927378403083..comments2021-10-20T05:25:45.755+01:00Comments on RÉSONAANCES: Where were we?Jesterhttp://www.blogger.com/profile/08947218566941608850noreply@blogger.comBlogger34125tag:blogger.com,1999:blog-2846514233477399562.post-2021327565833548752018-03-26T13:44:17.165+01:002018-03-26T13:44:17.165+01:00This morning, Shaposhnikov and Shkerin in https://...This morning, Shaposhnikov and Shkerin in https://arxiv.org/abs/1803.08907<br /><i>" imagine that the Higgs mass arises purely due to some quantum gravity ffects. Having accepted the conformal invariance setting, this could only imply the existence of a non-perturbative mechanism driving the Higgs field vev towards its observed value, some 17 orders of magnitude below Planck mass."</i><br />A Jacob's ladder from electroweak to a larger unification scale with some Higgs-Dilaton model?<br /><br />Will they trigger a Springtime of Scalars ?<br /><br /><br />Sous les pavés, la plage (May 1968, Paris)<br /><br />Sous les scalaires, l'unification (March 2018, Galois' birth village)<br /><br />Proletarier aller Länder, vereinigt euch! (Februar 1848, Manifest der Kommunistischen Partei in London) <br /><br />Scalars from all Scales, Unite! (March 2018, #ScalarsUp motto on Twitter) <br /><br />Fluctuat nec mergitur (1358, Paris Motto) <br /><br />Qu-operate and Fluctuate without Hindrance! (just before eternity, engraved at the Quantum Paradise Gateway)cbhttps://www.blogger.com/profile/03349828290008437401noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-72424446936870854192018-03-21T13:38:48.691+01:002018-03-21T13:38:48.691+01:00Welcome back! we missed you Jester!Welcome back! we missed you Jester!Anonymousnoreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-88188616589995271842018-03-20T05:51:17.284+01:002018-03-20T05:51:17.284+01:00Missed you, Jester. Glad to see you back! Your blo...Missed you, Jester. Glad to see you back! Your blog is unique and thought-provoking. Anonymousnoreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-33446827368053740212018-03-17T13:46:14.617+01:002018-03-17T13:46:14.617+01:00To last @Anonymus from the former Jester's pos...To last @Anonymus from the former Jester's post <i>"After the hangover"</i><br /><br />Useless > Useful ?<br /><br />;-)cbhttps://www.blogger.com/profile/03349828290008437401noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-53760373353111174482018-03-17T13:40:01.912+01:002018-03-17T13:40:01.912+01:00As far as the unfinished business of gauge fields ...As far as the unfinished business of gauge fields unification is concerned it seems to me that some nonsupersymmetric Pati-Salam models can do the job as well as their SUSY counterparts up to the 10^16 GeV scale with three right-handed Majorana Neutrinos for successfull leptogenesis. Living with or without leptoquarks are alternatives that may depend on the Higgstory... <br /><br />It happens by the way that thanks to the help of another 'fourth musketeer", Walter van Suijlekom, the noncommutative geometrisation of the Standard Model has delivered a minimal axiomatic framework, mathematically consistent (without conjecture), with powerful tools to <b>compute</b> the full scalar and gauge fields from a spectral action principle provided the fermion content of the model is known. <br />Last but not least it happens that, to quote Chamseddine:<br /><i>by starting from a quantization condition on the volume of the noncommutative space, all fields and their interactions are predicted and given by a Pati-Salam model which has three<br />special cases one of which is the Standard Model with neutrino masses and a singlet field [the number of generations is put by hand]. The spectral Standard Model predicts unification of gauge couplings and the correct mass for the top quark and is consistent with a low Higgs mass of 125 Gev. The unification model is assumed to hold at the unification scale and when the gauge, Yukawa and Higgs couplings relations are taken as initial conditions on the renormalisation group equations one finds complete agreement with experiment, except for the meeting of the gauge couplings which are off by 4%. This suggests that a Pati-Salam model defines the physics beyond the Standard Model, and where we have shown [arxiv.org/abs/1507.08161] that it allows for unification of gauge couplings, consistent with experimental data</i>.<br />A final detail : <br /><i>this discussion of spacetime geometry takes place in the Euclidean signature. Physics takes place in the Minkowski signature. The Wick rotation plays a key role in giving a mathematical meaning to the Feynman integral in QFT for flat space-time but becomes problematic for curved space-time. But following Hawking and Gibbons one can investigate the Euclidean Feynman integral over compact 4-manifolds implementing a cobordism between two fixed 3-geometries. Two interesting points occur if one uses the above spectral approach. First the new boundary terms, involving the extrinsic curvature of the boundary, which Hawking and Gibbons had to add to the Einstein action, pop up automatically from the spectral action as shown in [hep-th 0705.1786]. Second, in the functional integral, the kinetic term of the Weyl term (i.e. the “dilaton”) has the wrong sign. In [this] formalism the higher Heisenberg equation fixes the volume form and automatically freezes the dilaton... (arxiv.org/abs/1703.02470)</i><br /><br />From the theorist model-builder or the automaton-programmer, who could win the deep learning race off the Post-Naturalness <i>krisis</i> (arxiv.org/abs/1710.07663) <br />cbhttps://www.blogger.com/profile/03349828290008437401noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-50126752717550573302018-03-17T12:10:33.819+01:002018-03-17T12:10:33.819+01:00I forgot to mention the "fourth musketeer&quo...I forgot to mention the "fourth musketeer" of this Solid Theoretical Research In Natural Geometric Structures adventure: Carlo Rovelli who is involved in another "marginal" fact also connected to the Tomita-Takesaki theory, this is the thermal time hypothesis proposed to explain the emergence of time in a hypothetical quantum gravity (QG) theory.<br /><br />To quote Connes: <br /><i>The [almost commutative] space-time which allows to recover the Sandard Model coupled to gravity is of type I, since it is the product of a manifold M by a finite space F i. e. a space whose algebra of coordinates is finite dimensional. It is not at this level that we expect to get "emergent time" but rather at the level of the algebra of observables in QG. The origin of this idea comes from Carlo Rovelli who --completely independently from the KMS story-- had found by reflecting about basic philosophical issues in QG that the "time we feel" (as opposed to a time coordinate in space-time) should be of thermodynamical nature and should be tied up to a thermal state: the heat bath of the relic photon radiation which breaks naturally Lorentz invariance. The real thing now is to put one's hands on a good model for an algebra of spectral observables in QG. Some ingredients towards this are explained at the end of our book with Matilde Marcolli [http://www.alainconnes.org/docs/bookwebfinal.pdf]). </i>cbhttps://www.blogger.com/profile/03349828290008437401noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-77620845143758669192018-03-17T11:23:08.507+01:002018-03-17T11:23:08.507+01:00M-theory is the only theory that seems to have all...<i>M-theory is the only theory that <b>seems</b> to have all the properties we would expect of a complete and consistent "history of everything," but that may just reflect our lack of imagination. If M-theory is correct, it predicts that every particle should have a super-partner. So far, we have not observed any super-partners, but the hope is that they will be found at the LHC. If they are discovered, it will be strong evidence for M-theory. On the other hand, it they are shown not to exist, that will be exciting, because we will learn something new.</i> <br />Quote from the Cambridge quantum Prometheus whose shadow has just faded on the classical spacetime scene but whose flame he stole for us from black holes is still enlightning the quantum theater. (bold emphasis is <i>his</i>) <br /><br />In the mean time, a Princeton quantum Orpheus revives Von Neumann factors of type III from the underworld of algebraic and axiomatic quantum field theories... having no sufficient time unfortunately to explain for us in his crystal clear educational style, the marginal fact that Tomita-Takesaki theory is a keystone in the cathedral with two quanta of geometry patiently built and secretly offered to physicists by three musketeers: a retired from College de France mathematician, a son of Salam IHES theoretical physicist and one the most respected Russian cosmologist. With these two diamonds, found in the pocket of the Standard Model beggar, they can mimic dark matter and dark energy as a modification of the longitudinal mode in General Relativity and can also incorporate the idea of limiting curvature removing singularities... Maybe this new quantum of information will help high energy physicists to make the difficult task of conformal model building easier?<br /><br />Remember dear physicist this almost forgotten knowledge from the past: Prometheus had a brother called Epimetheus!cbhttps://www.blogger.com/profile/03349828290008437401noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-71072723821720713182018-03-16T21:06:32.106+01:002018-03-16T21:06:32.106+01:00One is astrophysics where there are much better pr...<i>One is astrophysics where there are much better prospects of experimental progress. The cosmos is a natural collider that is constantly testing fundamental interactions independently of current fashions or funding agencies. This gives us an opportunity to learn more about dark matter and neutrinos, and also about various hypothetical particles like axions or milli-charged matter. The most recent story of the 21cm absorption signal shows that there are still treasure troves of data waiting for us out there. Moreover, new observational windows keep opening up, as recently illustrated by the nascent gravitational wave astronomy. This avenue is of course a non-brainer, already explored since a long time by particle theorists, but I expect it will further gain in importance in the coming years.</i><br /><br />The importance of this can't be understated. The sheer volume of new data in astrophysics is stunningly large compared to HEP, there are many independent teams of investigators to limit group think, and the evidence being gathered is in the sweet spot where it is possible for theorists to make predictions than can't be tested when made but can be tested before the people making the predictions are dead. The wealth of data also purges theoretical dead ends that can't be disproven with existing data fairly quickly, preventing the field from reaching a tipping point where a majority of professionals in the field have an interest in experimental work not progressing so that their life work is not ruled out.<br /><br />Another big factor for astrophysics is that we know for an absolute certainty due to dark matter and dark energy attributed phenomena that there is BSM physics to be discovered from this investment, while new HEP investment we can afford might or might not lead to new physics. And, while space based astrophysics observations aren't cheap, they are very cost competitive with a next generation collider big enough to potentially see something cool.<br /><br />andrewhttps://www.blogger.com/profile/08172964121659914379noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-18917210363405885852018-03-16T13:46:04.074+01:002018-03-16T13:46:04.074+01:00All this machinery of scattering amplitudes is alw...All this machinery of scattering amplitudes is always fundamentally based on perturbation theory, the only approach we know to treat QFTs. It is clear that the direction is not to improve the way we compute such terms but rather to find a different way to solve QFTs. Only this will help us to gain more insights. Marco Frascahttps://marcofrasca.wordpress.com/noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-22779662942427946302018-03-16T12:31:04.327+01:002018-03-16T12:31:04.327+01:00Anonymous @ 6:11 and Rutger,
The formalism of sca...Anonymous @ 6:11 and Rutger,<br /><br />The formalism of scattering amplitudes in gauge theory and gravity is an exciting step towards replacing the traditional PI approach of perturbative QFT. However, it does not discard either quantum fields (spinor helicity implicitly assumes Dirac's theory) or symmetries (irreducible representations, the SU(2) little group implicitly assume group theory). From this standpoint, it cannot be considered a fundamental reformulation of QFT that throws away fields or symmetries from the outset. Besides, it remains to be seen if scattering amplitudes can successfully explain what SM leaves out (Dark Matter, Higgs naturalness, neutrino masses, baryogenesis, the replication problem, the origin of SM parameters and so on).Ervin Goldfainhttps://www.blogger.com/profile/07585008304556273617noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-63782869968137270242018-03-16T11:22:47.866+01:002018-03-16T11:22:47.866+01:00"Are experimentalists still needed now that w..."Are experimentalists still needed now that we have machine learning?" What are you talking? It is much easier to replace theoretists than experimentalists. The job of a "theoretical high-energy physicist" is one of the first that will fall - because their naive human model-building can be done systematically and fast with machines.Anonymoushttps://www.blogger.com/profile/03517713283468596550noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-17900546249720156402018-03-16T11:10:18.369+01:002018-03-16T11:10:18.369+01:00To be fair the analytic S-matrix type approach is ...To be fair the analytic S-matrix type approach is to my mind currently missing a good understanding of renormalisation, and especially the renormalisation group equation and its cousins like Altarelli-Parisi. This is especially interesting given the topic of this post!Rutgerhttps://www.blogger.com/profile/00111005637872740332noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-27406150809375770922018-03-16T06:11:31.324+01:002018-03-16T06:11:31.324+01:00@Goldfain
Here’s a book by Elvang and Huang on thi...@Goldfain<br />Here’s a book by Elvang and Huang on this topic: https://arxiv.org/abs/1308.1697<br />As for your questions:<br />1. Start with unitarity and relativity<br />2. You get the irreducible representations<br />3. You get helictity spinors (for massless particles) and tensors (for massive particles).<br />4. Start constructing scattering amplitudes that transform correctly under the little groups and consistently factorize under unitarity,<br />5. With just these things, you can derive the existence of gravity, Yang-Mills etc.<br />6, Plug in the required couplings and viola, you can reproduce the entire standard model, at least at the perturbative level<br />7. The symmetries are embedded in the chosen couplings, this follows from step 5.<br />This paper nicely summarizes whole process: https://arxiv.org/abs/1709.04891<br />This is completely equivalent to the path integral approach, it’s just cleaner and simpler.Anonymousnoreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-55492591297651981472018-03-16T01:59:18.672+01:002018-03-16T01:59:18.672+01:00Amplitudes aren't bullshit. But the amplituhed...Amplitudes aren't bullshit. But the amplituhedron surely is. SPACETIME IS DOOMED! DOOMED I TELL YOU! REPENT! REPENT!!Rastus Odinga Odingahttps://www.blogger.com/profile/09615544434035028500noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-79884240013964787712018-03-16T00:03:43.970+01:002018-03-16T00:03:43.970+01:00Hi, good to read this blog again.
To my own opini...Hi, good to read this blog again.<br /><br />To my own opinion, it looks like a coming stage of panic...<br /><br />Btw, any news of the muon magnetic moment? I bet this one will be a success. I mean really new physics. <br /><br />Best,<br />J.akidbellehttps://www.blogger.com/profile/12292741599925116131noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-83334085534062532222018-03-15T21:24:28.429+01:002018-03-15T21:24:28.429+01:00@ Rutger,
Can you be more specific?
Please provi...@ Rutger,<br /><br />Can you be more specific?<br /><br />Please provide an example of a fundamental reformulation of QFT that meets two requirements:<br /><br />1) discards fields, Lagrangians and symmetries from its conceptual structure,<br /><br />2) successfully reproduces the full spectrum of SM predictions.Ervin Goldfainhttps://www.blogger.com/profile/07585008304556273617noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-29770280193332108972018-03-15T20:52:09.998+01:002018-03-15T20:52:09.998+01:00@Goldfain
I think that a fundamental reformulati...@Goldfain <br /><br />I think that a fundamental reformulation of QFT should dispense of fields, Lagrangians and symmetries *and* recover the SM physics<br /><br />I think insisting that you want to reinterpret SM physics in terms of these concepts is not required. Rutgerhttps://www.blogger.com/profile/00111005637872740332noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-68376821161372033332018-03-15T20:35:33.779+01:002018-03-15T20:35:33.779+01:00@ Rutger,
So, in your opinion, a fundamental refo...@ Rutger,<br /><br />So, in your opinion, a fundamental reformulation of QFT should dispense of fields, Lagrangians and symmetries without recovering the SM physics in terms of these concepts?Ervin Goldfainhttps://www.blogger.com/profile/07585008304556273617noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-88209337311413651912018-03-15T19:50:19.625+01:002018-03-15T19:50:19.625+01:00@Goldfain
basically, no. In every attempt at ext...@Goldfain <br /><br />basically, no. In every attempt at extensions along these lines people try to construct an engine that produces scattering amplitudes or correlation functions directly. Yes, you can *also* compute these with path integrals & Feyman graphs, etc, etc: this is considered one engine among many. Logically speaking, if tickling 10 unicorns in some way would yield LHC predictions which confirm those obtained with path integral technology, than the unicorn approach is physically equivalent. There is no physical need to directly derive path integrals from the unicorns, interesting an exercise this may be.Rutgerhttps://www.blogger.com/profile/00111005637872740332noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-11472956986969185462018-03-15T15:48:33.466+01:002018-03-15T15:48:33.466+01:00"... at least to explain dark matter ..."..."... at least to explain dark matter ..." I say that Milgrom is the Kepler of contemporary cosmology. I am not saying that Milgrom might be the Kepler of contemporary cosmology — I am saying that it's a fact based on overwhelming empirical evidence. Google "kroupa milgrom", "mcgaugh milgrom", "sanders milgrom", and "scarpa milgrom".David Brownhttps://www.blogger.com/profile/10537922851243581921noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-87120952969155844972018-03-15T15:47:49.533+01:002018-03-15T15:47:49.533+01:00Jester, you say:
"...but also complete refor...Jester, you say:<br /><br />"...but also complete reformulations of the QFT basics demoting the sacred cows like fields, Lagrangians, and gauge symmetry."<br /><br />Whatever the approach to a fundamental revision of QFT might be, it must fully recover the effective field theory in the infrared limit. As such, it cannot arbitrarily throw away fields, Lagrangians and gauge symmetries. Rather, it must successfully show that these concepts emerge from deeper principles (or a deeper framework of ideas) at the Standard Model scale.Ervin Goldfainhttps://www.blogger.com/profile/07585008304556273617noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-47335059477843319662018-03-15T15:32:20.234+01:002018-03-15T15:32:20.234+01:00The first sentence is entirely correct. The second...The first sentence is entirely correct. The second starts with some not-too-implausible wishful thinking, and ends with a huge leap of faith. Anonymoushttps://www.blogger.com/profile/15251854537700513873noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-89756260304793955002018-03-15T15:10:39.591+01:002018-03-15T15:10:39.591+01:00so then why was non-0 neutrino mass results given ...so then why was non-0 neutrino mass results given nobel prize? Why did Pierre Ramond say that non-0 neutrino mass points to evidence for low energy supersymmetry?<br />See<br />https://physics.aps.org/focus/supplement/neutrinoquotes.html<br />Is the quote by P. Ramond not correct and we are as clueless about physics beyond standard model as we were before we knew about neutrino mass?<br />Shantanuhttps://www.blogger.com/profile/16322812456382858228noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-50668985516073580622018-03-15T11:59:09.926+01:002018-03-15T11:59:09.926+01:00Benji: I recommend http://arxiv.org/abs/1708.0387...Benji: I recommend http://arxiv.org/abs/1708.03872 <br />Aqeel: I don't have anything intelligent to say about lattice, but it's clearly an important ingredient of the precision program.<br />Shantanu: Neutrino masses is an evidence for new physics, which however could be as heavy as 10^16 GeV. A priori, no connection to the LHC. Anonymoushttps://www.blogger.com/profile/15251854537700513873noreply@blogger.comtag:blogger.com,1999:blog-2846514233477399562.post-92072366193334898942018-03-15T10:47:48.073+01:002018-03-15T10:47:48.073+01:00benji,
Indeed there is a lot to be understood, mo...benji,<br /><br />Indeed there is a lot to be understood, mostly in QCD and non-Abelian gauge theories where we are a lacking a proof of confinement, the spectrum of the theory and a proof of existence. This could have an impact in the way we look at a non-linear quantum field theory opening new insights into the Higgs sector that we know how to treat only perturbatively. E.g,, if you take a look at the Coleman-Weinberg mechanism you can realize that the idea could be good but the way you manage it through perturbation theory can lead you astray. Marco Frascahttps://marcofrasca.wordpress.com/noreply@blogger.com