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June 1, 2025

Tannaka Reconstruction and the Monoid of Matrices

Posted by John Baez

You can classify representations of simple Lie groups using Dynkin diagrams, but you can also classify representations of ‘classical’ Lie groups using Young diagrams. Hermann Weyl wrote a whole book on this, The Classical Groups.

This approach is often treated as a bit outdated, since it doesn’t apply to all the simple Lie groups: it leaves out the so-called ‘exceptional’ groups. But what makes a group ‘classical’?

There’s no precise definition, but a classical group always has an obvious representation, you can get other representations by doing obvious things to this obvious one, and it turns out you can get all the representations this way.

For a long time I’ve been hoping to bring these ideas up to date using category theory. I had a bunch of conjectures, but I wasn’t able to prove any of them. Now Todd Trimble and I have made progress:

We tackle something even more classical than the classical groups: the monoid of n×nn \times n matrices, with matrix multiplication as its monoid operation.

Continue reading “Tannaka Reconstruction and the Monoid of Matrices”
Posted at 4:25 PM UTC | Permalink | Followups (13)

April 16, 2025

Position in Stellenbosch

Posted by John Baez

guest post by Bruce Bartlett

Stellenbosch University is hiring!

Continue reading “Position in Stellenbosch”
Posted at 12:21 AM UTC | Permalink | Post a Comment

April 15, 2025

Categorical Linguistics in Quanta

Posted by Tom Leinster

Quanta magazine has just published a feature on Tai-Danae Bradley and her work, entitled

Where Does Meaning Live in a Sentence? Math Might Tell Us.

The mathematician Tai-Danae Bradley is using category theory to try to understand both human and AI-generated language.

It’s a nicely set up Q&A, with questions like “What’s something category theory lets you see that you can’t otherwise?” and “How do you use category theory to understand language?”

Particularly interesting for me is the part towards the end where Bradley describes her work with Juan Pablo Vigneaux on magnitude of enriched categories of texts.

Posted at 9:10 AM UTC | Permalink | Followups (1)

April 7, 2025

Quantum Ellipsoids

Posted by John Baez

With the stock market crash and the big protests across the US, I’m finally feeling a trace of optimism that Trump’s stranglehold on the nation will weaken. Just a trace.

I still need to self-medicate to keep from sinking into depression — where ‘self-medicate’, in my case, means studying fun math and physics I don’t need to know. I’ve been learning about the interactions between number theory and group theory. But I haven’t been doing enough physics! I’m better at that, and it’s more visceral: more of a bodily experience, imagining things wiggling around.

So, I’ve been belatedly trying to lessen my terrible ignorance of nuclear physics. Nuclear physics is a fascinating application of quantum theory, but it’s less practical than chemistry and less sexy than particle physics, so I somehow skipped over it.

I’m finding it worth looking at! Right away it’s getting me to think about quantum ellipsoids.

Continue reading “Quantum Ellipsoids”
Posted at 7:48 PM UTC | Permalink | Followups (8)

March 26, 2025

The McGee Group

Posted by John Baez

This is a bit of a shaggy dog story, but I think it’s fun. There’s also a moral about the nature of mathematical research.

Once I was interested in the McGee graph, nicely animated here by Mamouka Jibladze:

This is the unique (3,7)-cage, meaning a graph such that each vertex has 3 neighbors and the shortest cycle has length 7. Since it has a very symmetrical appearance, I hoped it would be connected to some interesting algebraic structures. But which?

Continue reading “The McGee Group”
Posted at 6:33 PM UTC | Permalink | Followups (9)

March 20, 2025

Visual Insights (Part 2)

Posted by John Baez

From August 2013 to January 2017 I ran a blog called Visual Insight, which was a place to share striking images that help explain topics in mathematics.  Here’s the video of a talk I gave last week about some of those images:

It was fun showing people the great images created by Refurio Anachro, Greg Egan, Roice Nelson, Gerard Westendorp and many other folks. For more info on the images I talked about, read on….

Continue reading “Visual Insights (Part 2)”
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March 12, 2025

Category Theory 2025

Posted by Tom Leinster

Guest post by John Bourke.

The next International Category Theory Conference CT2025 will take place at Masaryk University (Brno, Czech Republic) from Sunday, July 13 and will end on Saturday, July 19, 2025.

Brno is a beautiful city surrounded by nature with a long tradition in category theory. If you are interested in attending, please read on!

Important dates

  • April 2: talk submission
  • April 18: early registration deadline
  • May 7: notification of speakers
  • May 23: registration deadline
  • July 13-19: conference

In addition to 25 minute contributed talks, there will be speed talks replacing poster sessions, and we hope to accommodate as many talks as possible.

The invited speakers are:

  • Clark Barwick (University of Edinburgh)
  • Maria Manuel Clementino (University of Coimbra)
  • Simon Henry (University of Ottawa)
  • Jean-Simon Lemay (Macquarie University)
  • Wendy Lowen (University of Antwerp)
  • Maru Sarazola (University of Minnesota)
Continue reading “Category Theory 2025”
Posted at 10:54 AM UTC | Permalink | Followups (3)

March 7, 2025

Visual Insights (Part 1)

Posted by John Baez

I’m giving a talk next Friday, March 14th, at 9 am Pacific Daylight time here in California. You’re all invited!

(Note that Daylight Savings Time starts March 9th, so do your calculations carefully if you do them before then.)

Title: Visual Insights

Abstract: For several years I ran a blog called Visual Insight, which was a place to share striking images that help explain topics in mathematics.  In this talk I’d like to show you some of those images and explain some of the mathematics they illustrate.

Zoom link: https://virginia.zoom.us/j/97786599157?pwd=jr0dvbolVZ6zrHZhjOSeE2aFvbl6Ix.1

Recording: This talk will be recorded, and eventually a video will appear here: https://www.youtube.com/@IllustratingMathSeminar

Continue reading “Visual Insights (Part 1)”
Posted at 6:31 AM UTC | Permalink | Post a Comment

March 4, 2025

How Good are Permutation Represesentations?

Posted by John Baez

Any action of a finite group GG on a finite set XX gives a linear representation of GG on the vector space with basis XX. This is called a ‘permutation representation’. And this raises a natural question: how many representations of finite groups are permutation representations?

Most representations are not permutation representations, since every permutation representation has a vector fixed by all elements of GG, namely the vector that’s the sum of all elements of XX. In other words, every permutation representation has a 1-dimensional trivial rep sitting inside it.

But what if we could ‘subtract off’ this trivial representation?

There are different levels of subtlety with which we can do this. For example, we can decategorify, and let:

  • the Burnside ring of GG be the ring A(G)A(G) of formal differences of isomorphism classes of actions of GG on finite sets;

  • the representation ring of GG be the ring R(G)R(G) of formal differences of isomorphism classes of finite-dimensional representations of GG.

In either of these rings, we can subtract.

There’s an obvious map β:A(G)R(G)\beta : A(G) \to R(G) , since any action of GG on a finite set gives a permutation representation of GG on the vector space with basis XX.

So I asked on MathOverflow: is β\beta typically surjective, or typically not surjective?

Continue reading “How Good are Permutation Represesentations?”
Posted at 5:01 PM UTC | Permalink | Followups (9)

February 26, 2025

Potential Functions and the Magnitude of Functors 2

Posted by Tom Leinster

Despite the “2” in the title, you can follow this post without having read part 1. The whole point is to sneak up on the metricky, analysisy stuff about potential functions from a categorical angle, by considering constructions that are categorically reasonable in their own right. Let’s go!

Continue reading “Potential Functions and the Magnitude of Functors 2”
Posted at 9:18 PM UTC | Permalink | Followups (7)

February 23, 2025

Potential Functions and the Magnitude of Functors 1

Posted by Tom Leinster

Next: Part 2

In the beginning, there were hardly any spaces whose magnitude we knew. Line segments were about the best we could do. Then Mark Meckes introduced the technique of potential functions for calculating magnitude, which was shown to be very powerful. For instance, Juan Antonio Barceló and Tony Carbery used it to compute the magnitude of odd-dimensional Euclidean balls, which turn out to be rational functions of the radius. Using potential functions allows you to tap into the vast repository of knowledge of PDEs.

In this post and the next, I’ll explain this technique from a categorical viewpoint, saying almost nothing about the analytic details. This is category theory as an organizational tool, used to help us understand how the various ideas fit together. Specifically, I’ll explain potential functions in terms of the magnitude of functors, which I wrote about here a few weeks ago.

Continue reading “Potential Functions and the Magnitude of Functors 1”
Posted at 8:21 AM UTC | Permalink | Followups (13)

February 17, 2025

Category Theorists in AI

Posted by John Baez

Applied category theorists are flocking to AI, because that’s where the money is. I avoid working on it, both because I have an instinctive dislike of ‘hot topics’, and because at present AI is mainly being used to make rich and powerful people richer and more powerful.

However, I like to pay some attention to how category theorists are getting jobs connected to AI, and what they’re doing. Many of these people are my friends, so I wonder what they will do for AI, and the world at large — and what working on AI will do to them.

Let me list a bit of what’s going on. I’ll start with a cautionary tale, and then turn to the most important program linking AI and category theory today.

Continue reading “Category Theorists in AI”
Posted at 7:49 PM UTC | Permalink | Followups (31)

February 4, 2025

A Characterization of Standard Borel Spaces

Posted by John Baez

People in measure theory find it best to work with, not arbitrary measurable spaces, but certain nice ones called standard Borel spaces. I’ve used them myself.

The usual definition of these looks kind of clunky: a standard Borel space is a set XX equipped with a σ\sigma-algebra Σ\Sigma for which there exists a complete metric on XX such that Σ\Sigma is the σ\sigma-algebra of Borel sets. But the results are good. For example, every standard Borel space is isomorphic to one of these:

  • a finite or countably infinite set with its σ\sigma-algebra of all subsets,
  • the real line with its sigma-algebra of Borel subsets.

So standard Borel spaces are a good candidate for Tom Leinster’s program of revealing the mathematical inevitability of certain traditionally popular concepts. I forget exactly how he put it, but it’s a great program and I remember some examples: he found nice category-theoretic characterizations of Lebesgue integration, entropy, and the nerve of a category.

Now someone has done this for standard Borel spaces!

Continue reading “A Characterization of Standard Borel Spaces”
Posted at 6:13 PM UTC | Permalink | Followups (12)

February 2, 2025

Backing Up US Federal Databases

Posted by John Baez

I hope you’ve read the news:

Many of the pages taken down mention DEI, but they also include research papers on optics, chemistry, medicine and much more. They may reappear, but at this time nobody knows.

If you want to help save US federal web pages and databases, here are some things to do.

Continue reading “Backing Up US Federal Databases”
Posted at 11:40 PM UTC | Permalink | Followups (4)

January 29, 2025

Comagnitude 2

Posted by Tom Leinster

Previously: Part 1

Last time, I talked about the magnitude of a set-valued functor. Today, I’ll introduce the comagnitude of a set-valued functor.

I don’t know how much there is to the comagnitude idea. Let’s see! I’ll tell you all the interesting things I know about it.

Along the way, I’ll also ask an elementary question about group actions that I hope someone knows how to answer.

Continue reading “Comagnitude 2”
Posted at 10:50 PM UTC | Permalink | Followups (6)