Not Even Wrong

Frank Wilczek, besides his other accomplishments, is also the star of an opera, entitled Atom and Eve. More commentary on this from Betsy Devine, and Jennifer Ouellette, as well as a report here, and a review here.

Paul Cook has a report on the Templeton-sponsored panel discussion at Cambridge on The Nature of Space and Time.

In October 2004 the French magazine Ciel et Espace published an article about the Bogdanovs entitled The Bogdanov Mystification (English version here). They sued the magzine in December 2004 for defamation. Evidently a French court has now decided the case against the Bogdanovs, fining them 2500 Euros for frivolous litigation and requiring them to pay the magazine’s costs.

[Note: Igor Bogdanoff claims that the case was dropped about one year ago, that according to the judgement there was no trial, and the 2500 euro fine was a simple consequence of their not showing up for the last meeting with the judge.]

The Institute for Advanced Study has been famous in recent years for the emphasis of its theoretical group on string theory. They seem to be moving a bit more towards phenomenology these days, and there will be a workshop on axions there next month.

The Tevatron is performing well, recently achieving new record luminosities. You can keep track of their progress here.

LBL will soon be hosting a conference to celebrate the 50th anniversary of the Particle Data Group.

Chad Orzel has a perceptive review of Not Even Wrong at his blog, Uncertain Principles.

Update: There’s a tradition among bloggers of “carnivals”, collections of the more interesting recent blog postings in a certain area. The physical sciences now have one of their own, the first edition is now available, and it’s called Philosophia Naturalis.

Update: Note added about the Bogdanov court case, giving claims about this by Igor Bogdanoff.

Seems like everyone is getting a MySpace site, first Michio Kaku, now GLAST.

There was a conference this past week in Madrid honoring Nigel Hitchin’s 60th birthday. The program is here.

The latest issue of Nature has an article by Barry Mazur about recent progress on the Sato-Tate conjecture due to Mazur’s Harvard colleague Richard Taylor and collaborators. My meager understanding of this result is that it involves extending the Taniyama-Shimura-Weil conjecture from the case of the two-dimensional representation of GL(2) to symmetric powers of this representation.

Mark Trodden and Christine Dantas both have well-done reviews of Alex Vilenkin’s Many Worlds in One, which I wrote about here. Mark implicitly compares the book very favorably to Susskind’s recent one promoting similar ideas. I kind of disagree with him about the book, feeling that, no matter how well done, promoting to the general public science consisting of highly speculative ideas that seem to be untestable is not a good idea. It’s true that the multiverse cannot be simply dismissed on the grounds that one can’t directly observe it, but if the idea is to be considered part of science one has to come up with some way to test it. So far no one has been able to come up with a plausible proposal for how to do so, and there are solid arguments that this is inherently impossible.

[In the comment section Mark writes in to correct me, saying that he just contrasts Vilenkin’s attitude to that of others, and was not referring to Susskind’s book, which he hasn’t read.]

Update: A commenter points out that on his MySpace site Kaku has posted a copy of a forthcoming article by him that is supposed to appear in New Scientist. It is about the controversy over string theory, but doesn’t at all deal with the criticisms of the theory contained in my book and Smolin’s. It does contain a thoroughly dishonest paragraph about me, misrepresenting my position at Columbia (Kaku is well aware than I am a faculty member and teach graduate courses here, as well as administering the department computer system), and describing me as a “former particle physicist” (he’s well aware I have recently written a book on the subject of particle physics and continue to conduct research on the subject; then again, many people consider him to be a “former particle physicist”). He ascribes my criticism of string theory to jealousy over having been turned down for tenured positions at prestigious universities in favor of string theorists, and misquotes something I wrote about string theory:

String theory has only a “poetic relationship” to reality.

I never have said or written anything like this. He is misrepresenting a point I made in the book that string theory is a quite complex mathematical structure that only has a very distant relationship to musical notes and vibrating physical strings:

Once one starts learning the details of ten-dimensional superstring theory, anomaly cancellation, Calabi-Yau spaces, etc., one realizes that a vibrating string and its musical notes have only a poetic relationship to the real thing at issue.

The paragraph about me is dishonest and misleading, and so is much of the rest of the article. Kaku claims that string theory is being criticized because it cannot be directly tested by observing vibrating string modes. Critics of string theory are well aware that many theories can only be indirectly tested, and the arguments we are giving are about lack of any predictions at all. He describes five “indirect tests of string theory”, neglecting to mention that string theory makes no definite predictions about what the five kinds of experiments being described will actually see. In particular, his claim that “string theory makes specific, testable predictions about the physical properties of dark matter” is simply untrue.

Some of the article is devoted to criticizing “media hype”, and a “spoiled society, always demanding immediate results”. Given his own role over the last twenty years in over-hyping and over-promising results from string theory, this is kind of funny to read. In the end, his response to the critics is similar to that of Susskind: less than honest ad hominem attacks, misrepresentation of criticism, and insistence that any evaluation of the success or failure of string theory be postponed to the far distant future, at a time when he will no longer be around.

[Note: Michio Kaku has had this article removed from his web-site, explaining to me that it was a very preliminary draft, without any fact checking, which was never meant to see the light of day]

Update: From Stanley Deser, perhaps the shortest arXiv theory paper ever.

There’s a big debate within the scientific community in general about how and whether to move away from the conventional model of scientific publishing (journals supported by subscriptions paid by libraries, only available to subscribers) to a model where access to the papers in scientific journals is free to all (“Open Access”). The main problem with this is figuring out how to pay for it.

In his latest This Week’s Finds, John Baez gives a link to some information about the Open Access movement. One of the main actors here is SPARC (the Scholarly Publishing and Academic Resources Coalition). There’s an associated SPARC Open Access Newsletter and a blog, Open Access News.

Inside Higher Ed has a recent article about this, and last week’s Science magazine also has an article. The Science article discusses a new proposal put out by a task force from CERN that can be found here. The CERN task force has gathered a lot of interesting data about the particle physics literature, counting roughly 6000 papers/year, of which about 80% are theoretical. They found that about half of the journals publishing most particle physics papers are willing to move to an open-access model, with a cost per paper of between \$1-3000. These included APS and IOP journals, but did not include Elsevier journals like Nuclear Physics B. The APS has announced a program that would make papers in its journals open access at a cost of \$975-1300 per paper, and Elsevier has announced something similar at around $3000/paper. The CERN task force proposes raising \$6-8 million/year over the next few years to start supporting the half of the journals (not including Elsevier ones) that it has identified as ready for Open Access.

What is being proposed here is basically to give up on what a lot of people have hoped would develop: a model of free journals, whose cost would be small since they would be all-electronic, small enough to be supported by universities and research grants. Instead the idea here is to keep the current journals and their publishers in place, just changing the funding mechanism from library subscriptions to something else, some form that would fund access for all. The CERN task force suggests various sources for funds over the next few years, in a transition period, but doesn’t address the long term funding problem. If you fund these things out of, say, NSF grants, when Congress decides to cut the NSF budget, there’s a serious danger of the plug getting pulled on a field’s entire scientific literature. One popular idea is that researchers themselves should pay the cost. The problem with this is that the bulk of the literature is theory papers, mostly from people who can’t afford this. When there is a mixture of journals that require authors to pay the cost and those that don’t, authors abandon the ones they have to pay for. The Elsevier journals like Nuclear Physics B achieved dominance over the APS journals during the 70s when the APS journals were financed by “page charges” paid by authors, but Nuclear Physics B cost nothing to publish in.

The CERN task force doesn’t seem to me to be providing a viable long-term plan for moving to the kind of open access model they are supporting. It doesn’t address the fundamental problem of keeping a system where physicists hand over the scientific literature to Elsevier, then have to figure out how to buy it back. Even if a willing organization is found that will give \$3000/paper to Elsevier, what will keep Elsevier from deciding to keep publishing more papers? What if the organization in question gets tired of this and decides to stop paying?

The CERN report also contains a lot of highly debatable arguments. It claims that the current refereeing process is extremely important, valuable, and must be maintained at all costs, ignoring the fact that virtually everyone accesses papers at the arXiv, not at the journal. It’s true that the refereed version in a journal may be improved and have errors fixed, but authors are generally free to replace the original preprint version by a corrected one on the arXiv. The description given in the report of the “high standards of peer review” doesn’t agree with the reality of what is going on (see the Bogdanov affair). The mathematics literature still has a functional peer-reviewing system and it plays a very important role of keeping the number of incorrect proofs and unreliable results to a minimum, but the particle physics literature is very different. The report does continually make the point that the refereed journal system is crucial to the ways institutions evaluate people and decide whether to hire or promote them, but it doesn’t address the issue of whether this is a good thing.

The report also tries to claim that the advent of LHC data will somehow make the refereed particle physics literature and open access to it much more important. I don’t see this at all. The experimental results from the big LHC detectors will come out only after very careful vetting by the groups themselves, and I don’t see how a referee is likely to have much of a useful role there. If surprising experimental results are found, there will be a frantic battle among theorists to get a preprint out that explains the new data, and everyone will be following this on the arXiv. By the time such papers get through refereeing and are published, few people will still be paying attention to them.

Update: Nature Physics also has a recent article about peer review and open access.

This week the Newton Institute in Cambridge is running (with funding from the Templeton Foundation) a workshop on the topic of Noncommutative Geometry and Physics: Fundamental Structure of Space and Time. The program is here, some of the talks are online here, and Paul Cook is blogging here (with truly scary pictures of a Newton Institute restroom). Thursday evening they will be having a public panel discussion, entitled The Nature of Space and Time: An Evening of Speculation.

For someone interested not in quantum gravity but in particle physics, the most interesting of these talks is doubtless that of Alain Connes, entitled Noncommutative Geometry and the standard model with neutrino mixing. He has a new paper out, with the same title, with more details promised in a forthcoming paper with Chamseddine. I’ve been carrying the paper around for a while now, hoping to understand exactly what he’s doing, but it’s rather dense and some of the calculations are involved and don’t carry much of an explanation. I really wish I’d been at the talk to hear his exposition of what he’s up to here.

Among the other talks at the conference I would like to have heard would be that of Samson Shatashvili, who is doing some very interesting things with 2d gauge theories. He has a new paper out (with Gerasimov) which looks quite readable, entitled Higgs Bundles, Gauge Theories and Quantum Groups.

Another conference going on that is finishing up this week is the Erice “International School of Subnuclear Physics”, this year entitled The Logic of Nature, Complexity and New Physics, and dedicated to Richard Dalitz. Back during the sixties, seventies and eighties, the Erice School was an important yearly event, featuring the best theorists around giving expository lectures on the latest ideas, often including spectacularly beautiful lectures by Sidney Coleman. This year’s school just looks profoundly weird, with an interesting and reasonable set of lectures on the experimental side, but the theoretical side mostly devoted to “complexity and the Landscape”, featuring an opening lecture and mini-course about the Landscape by Susskind, a mini-course about the Landscape and its computational complexity (i.e. why it is hopeless to ever use it to predict anything) by Denef and Douglas, and more complexity from Zichichi, Beck, Gell-Mann and Tsallis. Many of the lectures are available here. Steve Hsu is blogging from the conference, and he reports that Susskind says the Landscape program is science since it now gives exactly one bit of information about the universe (the sign of the spatial curvature k), although he expects Andrei Linde to be able to make that bit disappear if he wants to.

Update: Urs Schreiber has an excellent discussion of the Connes program here and here.

I’d really much rather ignore the activities of Lubos Motl, but his unethical behavior recently has sunk to new lows, and it seems necessary to point this out and encourage others to take appropriate action.

When Lee Smolin’s new book The Trouble With Physics first became available recently on Amazon, Lubos immediately posted a “two-star” review of the book, one that immediately had a large number of votes that it was “helpful”, likely generated by Lubos himself. The review is thoroughly dishonest and designed to mislead anyone who might consider buying the book (“Lee reveals his intense hostility against all of modern physics”, “Lee proposes a truly radical thesis that it is wrong for mathematics to play a crucial role in theoretical physics”, “He also denies the difference between renormalizable field theories and the rest”, “one of his rules says that the conclusions must be accepted by everyone if their author is a person of good faith”, etc., etc., etc…). The dishonesty includes the use of two stars rather than one, since Lubos is well-aware that Amazon is more likely to immediately delete one-star reviews.

After a while, another review appeared, a positive 5-star review. At some point, it seems that Amazon deleted Lubos’s review, perhaps because some people had, quite justifiably, clicked on the link that allows one to report a review as inappropriate. Lubos then posted on his blog a rant about this. Later on, he somehow managed to get the 5-star review deleted, and his own one reinstated (and removed his blog posting). At the present time, the only review of Smolin’s book on Amazon is the dishonest one by Lubos. This situation provides yet another example of the kind of disturbing behavior of parts of the string theory community that Smolin has detailed in part of his book. Unfortunately, if people just ignore what Lubos is up to, we end up with situations like the current one at Amazon, so I encourage people to consider what action they can take to do something about this. As for Amazon, the answer to dishonest speech is honest speech, so I encourage people to post honest reviews there of the book, I’ve just done so (and if you want to review my book while you’re at it, that’s fine too…).

Lubos still has up on his blog an offer to pay people $20 for writing bad reviews of my book. I’ve complained to people in the Harvard physics department that this kind of professional behavior by one of its faculty members is unethical and not the sort of thing protected by academic freedom. I’ve also pointed out to them that Lubos regularly publicly claims that his colleagues share his views (most recently in the Amazon review where he goes on about Smolin visiting “us”, and what “we” “mainstream physicists” think). While it appears that at some point an attempt was made by someone at Harvard to get him to suppress his extreme political views, I’ve seen no evidence whatsoever that anyone in the string theory group at Harvard has a problem with his behavior in defending string theory. This is also true of the larger string theory community, which remains almost unanimously (Aaron Bergman is the one exception I can think of) unwilling to publicly criticize Lubos’s tactics. A common recent defense of string theory against its critics is that its proponents hold power because they have triumphed in the “marketplace of ideas.” It’s not a pretty sight to see how this triumph is being defended now that there are other voices in the marketplace.

Update: About an hour and a half after I posted this, my positive review of Smolin’s book had accumulated a bunch of “helpful” votes, Lubos’s a bunch of “unhelpful” ones, and, I’m guessing, a bunch of reports as “inappropriate”. His review then disappeared. My sympathy goes out to whoever it is at Amazon who has to moderate this kind of controversy. Since Lubos is such a poster boy for the problems of string theory, I should say that I’d be happier if his review had not been deleted, but remained there, countered by other, more honest reviews.

Update: I see that Lubos’s “one-star” review of my book is now back up (carrying the original date, why’s that?) with the comment:

My review has been erased four times because the author keeps on encouraging other enemies of science on his discussion forum to report my review as inappropriate. This is not fair and is a reason why I returned to 1 star.

Well, his review is inappropriate, so I can see why people click on the link that reports this. Again, I’d prefer that it stay up there to show how string theorists behave, but that others with more honest reviews submit them also. Besides, like most authors these days, I do periodically check my Amazon sales ranking, and, as far as I can tell, when his review is there, sales improve. Go, Lubos!

Update: OK, now his review of my book has disappeared, and the one of Smolin’s has reappeared. Depressing, my sales should soon head downward, but I’m glad Lee’s will do better.

Update: Lubos is indefatigable, both his reviews are back, mine now says:

My review has been erased five times because the author keeps on encouraging other enemies of science on his discussion forum to report my review as inappropriate. This is not fair and is a reason why I returned to 1 star. Please don’t trust the counter of helpful votes either. It is being distorted by the visitors of Peter Woit’s blog who are directly controlled by the author of this book.

It seems that I “directly control” visitors here. Wow.

I’m guessing Amazon must have some sort of automated system, which apparently deletes reviews that receive a certain number of “inappropriate” votes, but allows the review to be edited slightly and resubmitted.

Update: Lubos seems to have managed to get my review of Smolin’s book deleted, as well as one of the 5-star reviews of my book. I can’t compete with him in terms of fanaticism, so will just have to take people’s advice and ignore what he is up to in terms of manipulation of Amazon reviews. Smolin is a new father and also doubtless too busy for this. People who don’t like this situation are free to try and do something about it, by writing reviews, or contacting Amazon, Lubos’s employer, or the people he refers to as “us” in his review to make them aware of what is going on.

Wired has an interview with Lee Smolin.

The French internet site Arte has interviews with various physicists, including one with Carlo Rovelli. If you don’t want to watch the videos, there’s a text summary (in French).

Mel Schwartz died earlier this week. He won the Nobel prize in 1988 for his 1962 co-discovery of the muon neutrino at the AGS at Brookhaven. Schwartz left physics for a while and founded his own company near Stanford. He returned to Brookhaven and worked on the plans for RHIC, then came back here to Columbia where he was a professor in the physics department, so I had the pleasure of meeting him a couple times. After his retirement he moved to Idaho.

Freeman Dyson’s 1951 lectures on QED have been put in TeX and posted on the arXiv.

This fall Graeme Segal will be visiting Columbia as “Eilenberg Chair”, a visiting position we have that was funded by the sale of part of Sammy Eilenberg’s collection of South and Southeast Asian art to the Metropolitan Museum. Segal will be giving a course on The Mathematical Structure of Quantum Field Theories, which I’m very much looking forward to.

Another course I’d like to attend, but it’s too far away, would be Dan Freed’s one this semester on Loop Groups and Algebraic Topology. The web-site for the course includes a reproduction of Bott’s wonderful lecture notes dealing with the topology of compact Lie groups.

There’s a new paper out by Thomas Thiemann summarizing the technical state of LQG. I haven’t had time yet to read it, but hope to spend some time soon doing that. A good place to discuss it would be here, where Aaron Bergmann has already started, also see some comments by Robert Helling. A not so good place to discuss it would be here.

Eckhard Meinrenken has an interesting new paper entitled Lecture Notes on Pure Spinors and Moment Maps, which promises a more detailed forthcoming paper by him, Alekseev and Bursztyn.

Some recent and ongoing conferences that have talks online are at Ahrenshoop and Santa Barbara.

The American Institute of Mathematics was founded in 1994, with financing from John Fry, the Silicon Valley businessman responsible for Fry’s Electronics. The Fry’s store in Palo Alto is quite remarkable, containing everything a Silicon Valley geek might need, with a huge selection of potato chips and computer chips. In recent years, AIM has been running a wide variety of workshops, at a temporary location called the AIM Research Conference Center (ARCC), which is basically in back of the Palo Alto store.

Last month, the City Council of Morgan Hill approved plans for construction next to a golf course of a huge castle that will provide a permanent home for the ARCC (for a news story about this, see here). It will be modeled on the Alhambra in Spain, occupy 167,000 square feet, contain a “gourmet-industrial kitchen with master chefs from a San Francisco seafood restaurant and a Napa Valley resort”, and much else besides. Fry himself is closely involved in the design of the castle, which is rumored to cost over $50 million, and planned to be ready for occupancy in 2009. More details about this are here, and there’s even a video of what the castle will look like.