Not Even Wrong

I grew up in the 1960s and 70s, at a time when fundamental physics was making huge dramatic progress and Western democracies were changing in equally dramatic ways, mostly for the better. It truly did seem that the Age of Aquarius was upon us, and that human societies were on a consistent route to progress, however uneven. By the late 1970s and early 1980s things had started to change, but that humanity and my chosen field of science were sooner or later moving forward still seemed self-evident.

By the late 1990s the situation started getting more disturbing. The likes of Newt Gingrich started taking over the Republican party, with a highly successful propaganda arm called Fox News running 24 hours a day, pushing lies about the Democrats, especially the Clintons (remember Whitewater?). For some mysterious reason, even the New York Times joined in. In theoretical physics, proponents of a failed theory dominated the subject, putting out endless propaganda to the public such as Michio Kaku’s Hyperspace.

Around this time I started spending a lot of time trying to understand how these things could be happening. If someone is saying obviously untrue things, logically there are only two possibilities: they’re ignorant and believe what they’re saying, or they’re dishonest, know very well that they are lying. Watching this kind of thing for many years, I started to realize that a better way of thinking about what was going on is that for many people (mathematicians being somewhat of an exception) the issue of truth just isn’t very relevant. Newt Gingrich and Michio Kaku likely weren’t thinking at all about whether what they were saying was true, they were thinking about what would get votes, sell books, or otherwise further their goals in life. Gingrich was doing what he was doing to save the republic, Kaku to pursue the dreams of Einstein, but both had enthusiastically entered a post-truth environment.

Over the last decade or two, things have gotten much, much worse. Those with a lot of influence in fundamental theoretical physics have driven the field to intellectual collapse by continuing to heavily promote failed ideas. The scientific method is based on abandoning failed ideas and moving on to better ones. As an undergraduate at Harvard I watched Glashow, Coleman, Weinberg, Witten and others quickly abandoning that which didn’t work and moving on to impressive new ideas, with more of the same at Princeton during my graduate years. These days Harvard Physics features a group of people devoted mainly to propping up the failed string theory program (Vafa with the “swampland”, Strominger with “A+++” and Jafferis with the wormhole publicity stunt). The situation at the IAS/Princeton isn’t a lot better.

On the American democracy front, the Trump phenomenon embodies post-truth in its purest form, with the full triumph now of a movement devoted to saying whatever will get them to power, with less than no interest in whether any of it is true. I’ve spent a lot of time trying to understand why voters in the US voted the way they did in this latest and recent elections. Taking a look at last night’s exit polling, the answer is pretty simple. Rich and poor voted much the same way, but those with the least education voted for Trump by a 28% margin, those with the most education voted for Harris by a 21% margin. The polite term for the first group seems to be “low information voters”, but what’s going on is that education is exactly what gives you the tools to look for the truth and not get taken in by lies.

The situation has gotten dramatically worse in recent years, as people get their information from social media, with the rise of powerful algorithms designed to generate outrage and “engagement” (sometimes designed and funded by bad actors). These send even some of the smartest people around deep into rabbit holes of lies.

So, given all this, how does one live a fulfilling life in a post-truth world? I’m 67 years old, now see little chance I’ll be around to see a return to the sort of world I once knew where what was true mattered. On the citizen in a democracy front, over the last few days I’ve adopted a new policy. When I’m reading anything, at the word “Trump” I stop and move on to something else. Other terms will get added to that algorithm as needed. What’s going on is all too clear, there’s nothing I can do about it, and I need to stop wasting time and energy thinking about it more. I’ve deleted the Twitter account I was using (@peterwoit, not the @notevenwrong blog post announcement account) and won’t anymore waste time in that sewer. I’ll miss stringking42069, but one has to make sacrifices.

On the theoretical physics front, I’ll give up wasting time paying attention to what string theorists are up to, and try to concentrate on more worthwhile intellectual activities. The blog will continue though, since it’s one of the main positive things I can do to make a small dent in the post-truth information environment. I’ve always benefited greatly from the many readers who write to me to tell me about things I may not have seen. Keep those cards and letters coming, especially since I’ll be spending less time looking for something new on the physics side of many of the usual topics I’ve covered.

Due to massive increases in the volume and sophistication of trolling, blog comments are now all moderated. If you want to argue that it’s all the Democrats fault (yes, I know that they have their own post-truth problem with identity politics), or that theoretical physics is doing just fine, please go away. If you have an insightful and constructive suggestion about how to live in the post-truth world, I’m willing to listen.

Update: Violated my own new policy by reading the following two analyses of where we are, which are better informed than my own:

https://newrepublic.com/post/188197/trump-media-information-landscape-fox
https://www.inquirer.com/opinion/commentary/trust-mainstream-media-2024-election-20241110.html

Now shutting off comments and attempting to stick to more productive activity.

Curt Jaimungal has a piece out, an interview with Lenny Susskind, with the title The Crisis in String Theory is Worse Than You Think…. Some of what Susskind has to say is the same as in his recent podcast with Lawrence Krauss (discussed here). These days, Susskind sometimes sounds like Peter Woit:

We live in the wrong kind of world to be described by string theory. No physicist has ever won a big prize for string theory. I can tell you with absolute certainty that it is not the real world that we live in. So we need to start over.

(interesting that Susskind seems to think the “Breakthrough Prize” is not a “big prize”, maybe because he’s one of the few well-known string theorists who hasn’t gotten one).

Susskind says he himself is working on trying to extend string theory to something different which will work in dS space, not just AdS, but he agrees with my claim that this is something the field has essentially given up on:

I actually don’t know anybody who is working, striving to try to expand the theory into either de Sitter space, which is not supersymmetric, or just more generally into an expanded version of the theory. Older people worked on it in the past. They worked on something called spontaneous breaking of supersymmetry. Don’t worry about what it means. It just means the theory wouldn’t be supersymmetric, and they failed. Now, that’s not a criticism of them. I worked on it, and I failed. That’s not a criticism of anybody, but it’s a fact that there is no precise theory which is not supersymmetric.

That is intolerable, in a sense. It can’t stay that way. We have to describe our world. That’s our purpose, and as I said, I don’t know anybody who’s actually working on that. If you were to send out a message to all the world’s theoretical physicists, anybody working on a generalization of string theory, you’d probably find some yeses, probably mostly among older people, and somehow we have to change this.

I’d argue the field has given up on it because, after decades of work, it’s clear this goes nowhere, and sooner or later Susskind will realize this.

At one point Susskind starts making an odd argument, hard to reconcile with the current state of the subject:

Look, there are still people who believe in the flat Earth, for God’s sakes. There’s people who believe all kinds of weird stuff. Don’t think about individuals. Think about the consensus of the largest fraction of physicists working on these things, and you’ll probably be right. The overall consensus of the field tends to be right. Peculiar individuals, no matter how famous they are, no matter how brilliant they are, if they’re off that consensus, and they’ve been off that consensus for a long time, they’re probably wrong. That doesn’t mean for sure that they’re wrong. Don’t look for the weirdos. Look for what the consensus of the majority of well-respected, highly accomplished physicists believe. And you’ll probably be right. There’s no guarantee of it. There are very few cases where the consensus has gone wrong for a long period of time, just where some offbeat idea of some particular individual suddenly changes everything. I’m not saying it doesn’t happen, but rarely. Penrose, what can I say? He believes all kinds of things that I wouldn’t subscribe to. But more than that, things that the consensus wouldn’t subscribe to.

Besides the weirdo Roger Penrose, he’s no fan of the ideas of another weirdo:

What is Peter Woit? If you look on the Internet, if you look on the archive, he has a small number of papers which are bad. They’re bad mathematics and bad physics. They’re just bad. I probably shouldn’t say that. I probably shouldn’t, but I’m going to say it anyway. He has nothing to offer at all. I assure you that if he had something that was compelling and interesting and that solved some problem, the physics community would notice him. I looked at his papers. I was unimpressed,

I guess his reaction is fair, partly since my own criticism of his work on the landscape is much the same (I have on the other hand had nice things to say about his textbooks, some of which appears as a blurb on the French edition of one of them).
In any case, if you start with the assumption that anything too far off the consensus is going to be unpromising, you don’t need to spend much time looking at my work to confidently evaluate it as having nothing to offer.

Jaimungal does get Susskind to realize that the “if it’s not close to the consensus, it’s probably bad” argument is a dubious one, especially at a time when the consensus research program has clearly failed:

But you’re perfectly right. We should certainly be on the lookout for ideas which are not the consensus. We should be watching for them and not immediately dismiss them because they’re not exactly the same as the ideas that we’ve been pursuing. For sure, we should be doing that. So I would agree with you about that. And maybe we haven’t been diligent enough with some of these ideas…

Most of the people I know, and that might even include myself to some extent, are derisive about a lot of these ideas. And they’re correct that there is a very strong skepticism about them, and maybe to some extent, unfounded. We all know that. There’s nothing hidden about that. The answer is I’ve looked at them, and I don’t find anything compelling about them. If you call that derision, yeah, I am a little bit derisive. However, I would say maybe there are elements in those theories which will come back, come back in some different form, which will connect better with the things which I think are right. And that’s a possibility, which I suspect most of my friends don’t entertain.

Who knows, some day Susskind may come around to the idea that one of the SU(2)s in the 4d Euclidean rotation group being an internal symmetry is not complete nonsense. Once I finish writing up a more detailed version of what I’ve been working on I’ll send him a copy. Maybe I’ll even finally figure out a way to use this to do something new with Kogut-Susskind/Kähler-Dirac versions of fermions, and he’ll be pleased that in 1977 he was on the right track…

Update: Somewhat related to the posting is this new rant from Sabine Hossenfelder. It’s motivated by this from “Professor Dave”, who has 3.4 million Youtube followers and is upset that she is hurting the credibility of scientists by criticizing what has happened in fundamental physics over the past 50 years (a topic he seems to know nothing about). While I disagree with her about some things, I strongly identify with:

Why the fuck is it my fault that cranks think I’m their best friend because I’m pointing out that there’s no progress in the foundations of physics? It’s a fact. We haven’t made progress in theory development for 50 years.

To connect explicitly to the topic of this posting, a big reason for the lack of progress is the way Susskind and other leaders of the field see things. In their minds it’s not possible that the consensus (i.e. groupthink) of GUTs/SUSY/strings of the past 50 years could be wrong. Anyone who argues otherwise is a “weirdo” who doesn’t understand the arguments behind the consensus and can’t possibly have any useful ideas about an alternative.

A few items that may be of interest:

• Edward Frenkel has a new Youtube show/podcast, entitled AfterMath. I gather that part of the concept here is a follow-on to his book Love and Math, but in this different format. He’s always thought-provoking and well-worth listening to on almost any topic, I’m looking forward to seeing what he does with this.
• Also in the Bay area, Michael Peskin recently gave a talk on How Should We Think about 10 TeV pCM Colliders?. Much of it is a very sobering look at the possible known ways to build a collider capable of colliding elementary particles at 10 TeV in the center of mass. The technical challenges are daunting and if this is going to get done it’s going to take quite a while and be very expensive.

  Besides the technological and financial problems, he faces up to the main problem of justifying such a project:

  Are the secrets of electroweak symmetry breaking and the Higgs field to be found at 10 TeV ? If we believe in this, we must still find arguments to convince our skeptical scientific colleagues. If we don’t believe in it, we are believing that there is no point in making the next step in collider physics.

  We cannot imagine the future of particle physics without grappling with this question.

  More specifically, he sees the challenge as

  to get the money to build such a collider, we would need

  definitive proof of violation of the Standard Model from HL-LHC or Higgs factories

  or

  a clear and compelling model to be tested (as the MSSM was for LHC).

  In my opinion, this puts a large burden on the theory community

  1. To be sure that an e+e- Higgs factory actually is built
  2. To put forward simple and attractive models of EWSB with a “little hierarchy”

  Unfortunately I don’t see any evidence of any attractive ideas about 2., and the sad history of the hype about SUSY and naturalness means that people are going to be looking a lot more skeptically at any claims by theorists to have such a thing.

• Speaking of Peskin, if you’re looking for an alternative to Peskin and Schroeder, there’s a recent new QFT book that I’ve seen which appears to be quite good: Introduction to Quantum Field Theory, by Anthony Williams. It doesn’t go as far as Peskin and Schroeder and other textbooks that get seriously into Standard Model physics, but it has a lot more detailed and careful explanations of the basics of relativistic quantum field theory. As such it should be significantly more readable by advanced undergraduates and beginning graduate students.
• Finally, two questions I’m wondering about, curious if anyone reading this knows the answer:

  Whatever happened about the bet between Ken Lane and David Gross over SUSY? Did Gross pay up?

  What’s going on with the 2025 Breakthrough Prizes? In past years, these things have been announced in September, Hollywood “Oscars of Science” ceremony in the spring. This year, nothing in September, and October is almost over, so wondering if the Breakthrough Prize people have a new concept for the prizes for the coming year.

• One more thing: I just noticed that the SMF has recently published a 1963 text of Grothendieck’s, his notes for a fall 1963 seminar at Harvard on duality theorems in algebraic geometry. Hartshorne ran the seminar and later wrote up notes, which were published as LNM 20, Residues and Duality.

Update: I’ve confirmed with Ken Lane that it seems David Gross won’t admit that SUSY has been a failure and he’s given up on Gross ever paying off on the bet. For more about the reaction of Gross and others to losing SUSY bets, see here
https://www.math.columbia.edu/~woit/wordpress/?p=8708
For documentation of the 1994 Gross/Lane bet, see page 62 of
https://indico.cern.ch/event/527162/contributions/2159007/attachments/1298122/1936489/deroeck_SUGRA_2016_v4.pdf

Update: Thanks to commenters who have answered both of my questions. Besides finding out what happened with the Gross/Lane bet, this comment explains that the new plan for the Breakthrough Prize is to announce it at the same time it is awarded at the Hollywood “Oscars of Science” event in April (so, 2025 prizes announced and awarded April 2025).

Quanta magazine has just put out an impressive package of material under the title The Unraveling of Space-Time. Much of it is promoting the “Spacetime is doomed” point of view that influential theorists have been pushing for decades now. A few quick comments about the articles:

• String theory is barely even mentioned.
• There is one article giving voice to an opposing point of view, that spacetime may not be doomed, an interview with Latham Boyle.
• The big problem with the supposedly now conventional view that spacetime needs to be replaced by something more fundamental that is completely different is of course: “replaced with what?”. A lot of attention is given to two general ideas. One is “holography”, the other Arkani-Hamed’s amplitudes program. But these are now very old ideas that show no signs of working as hoped.

  Thirty years ago Lenny Susskind was writing about The World as a Hologram. The idea wasn’t new then and seems to be going nowhere now. It was 17 years ago that Arkani-Hamed started re-orienting his research around the hope that new ways to compute scattering amplitudes would show new foundations for fundamental physics that would replace spacetime. Years of research since then by hundreds of theorists pursuing this have led to lots of new techniques for computing amplitudes (twistors, the amplituhedron, the associahedron, now surfaceology), but none of this shows any signs of giving the hoped for new foundations that would replace spacetime.

Instead of saying any more about this, it seems a good idea to try and lay out a very different point of view which I think has a lot more evidence for it. This point of view starts by noting that our current best fundamental theory has been absurdly successful. There are questions it doesn’t answer so we’d like to do better, but the idea that this is going to happen by throwing the whole thing out and looking for something completely different seems to me completely implausible.

One lesson of the development of our best fundamental theory is that the new ideas that went into it were much the same ideas that mathematicians had been discovering as they worked at things from an independent direction. Our currently fundamental classical notion of spacetime is based on Riemannian geometry, which mathematicians first discovered decades before physicists found out the significance for physics of this geometry. If the new idea is that the concept of a “space” needs to be replaced by something deeper, mathematicians have by now a long history of investigating more and more sophisticated ways of thinking about what a “space” is. That theorists are on the road to a better replacement for “space” would be more plausible if they were going down one of the directions mathematicians have found fruitful, but I don’t see that happening at all.

To get more specific, the basic mathematical constructions that go into the Standard Model (connections, curvature, spinors, the Dirac operator, quantization) involve some of the deepest and most powerful concepts in modern mathematics. Progress should more likely come from a deeper understanding of these than from throwing them all out and starting with crude arguments about holograms, tensor networks, or some such.

To get very specific, we should be looking not at the geometry of arbitrary dimensions, but at the four dimensions that have worked so well, thinking of them in terms of the spinor geometry which is both more fundamental mathematically, and at the center of our successful theory of the world (all matter particles are described by spinors). One should take the success of the formalism of connections and curvature on principal bundles at describing fundamental forces as indicating that this is the right set of fundamental variables for describing the gravitational force. Taking spin into account, the right language for describing four-dimensional geometry is the principal bundle of spin-frames with its spin-connection and vierbein dynamical variables (one should probably think of vectors as the tensor product of more fundamental spinor variables).

What I’m suggesting here isn’t a new point of view, it has motivated a lot of work in the past (e.g. Ashtekar variables). I’m hoping that some new ideas I’m looking into about the relation between the theory in Euclidean and Minkowski signature will help overcome previous roadblocks. Whether this will work as I hope is to be seen, but I think it’s a much more plausible vision than that of any of the doomers.

Update: John Horgan has some commentary here, taking the point of view that discussions of “Beyond Space-time” are fine, as long as you realize what you’re doing is “ironic science” not science.

A few weeks ago I recorded a podcast with Robinson Erhardt, which has now appeared as String Theory and the Crisis in Physics. We mainly talk about the current situation of string theory in physics and the history of how things have gotten to this point, topics familiar to readers of this blog.

Some other items:

• A Frequently Asked Question from students is for a good place to learn about the geometry used in gauge theory, i.e. the theory of connections and curvature for principal and vector bundles. Applied to the case of the frame bundle, this also gives a way of understanding the geometry of general relativity. One reference I’m aware of is Gauge Fields, Knots and Gravity, by John Baez and Javier P. Muniain, but I’d love to hear other suggestions. These could be more mathematical, but in a form physicists have a fighting chance at reading, or more from the physics point of view.
• For new material from mathematicians lecturing about quantum field theory, see Pavel Etingof’s course notes, and Graeme Segal’s four lectures at the ICMS (available in this youtube playlist).
• If you want to understand the mindset of the young string theory true believer these days, stringking42069 is back.
• There’s something called “Plectics Laboratories” which has been hosting mainly historical talks from leading physicists and mathematicians. For past talks, see their youtube channel. For a series upcoming September 23-27, see here.
• The IAS is hosting an ongoing Workshop on Quantum Information and Physics. One topic is prospects for future wormhole publicity stunts based on quantum computer calculations, see here. At the end of the talk, Maldacena raises the publicity stunt question (he calls it a “philosophical question”) of whether you can get away with claiming that you have created a black hole when you do a quantum computer simulation of one of the models he discussed.
• Ananyo Bhattacharya at Nautilus has an article on the role of physics in creating new math. While there is a lot there to point to, recent years have not seen the same kind of breakthroughs Witten and Atiyah were involved in during the 1980s and 90s. I’m hoping for some progress the other way, that new ideas from mathematics will somehow help fundamental theoretical physics out of its doldrums.