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Vanilla 1.1.10 is a product of Lussumo. More Information: Documentation, Community Support.
Added a description of several different approaches to geometric theory.
I gave CW-pair its own entry.
added references to essentially algebraic theory. Also equipped the text with a few more hyperlinks.
stub for confinement, but nothing much there yet. Just wanted to record the last references there somewhere.
added pointer to discussion of models of neutron stars by Skyrmions:
Created categorical model of dependent types, describing the various different ways to strictify category theory to match type theory and their interrelatedness. I wasn’t sure what to name this page — or even whether it should be part of some other page — but I like having all these closely related structures described in the same place.
created worldline formalism to go with this Physics.SE answer
for completeness, I have added pointer to
for proof of the Hausdorff property of CW complexes
added publication data to:
started some minimum at convolution product of distributions
added publication data for:
added statement of and references to the weak equivalence with the Fulton-MacPherson operad (here)
added the same statement also at Fulton-MacPherson operad
Max New: at (129.10.9.38) has put a query on the generalized universal bundle entry. It says:
I don’t understand the above diagram, what is the point in question? and how does this relate to the universal bundle? In particular, there is a sequence below that has a map from but I don’t see how to construct that from the above.
So I think this is a typo, but I don’t know enough to correct it.
started stub for bounded geometric morphism
I created separator, while having the nagging feeling that we already have this entry. Of course after creating it I remembered the page generator.
So we should merge the stuff. Might this be an occasion to merge away from generator? A set of “generating objects” also means other things than “separating objects” (notably colimit generation). So I’d be inclined to move all material to separator. That would also allow to drop the warning at the beginning of generator.
am splitting this off from Lie algebra, for ease of cross-linking.
Unfortunately, there are two entries on the same topic, both created by Urs: quantum Hall effect (redirecting also fractional quantum Hall effect what should eventually split off) with some substance, and the microstub quantum hall effect. I would like to create quantum spin Hall effect and I think I should rename/reclaim the stub quantum hall effect for this. Do others agree ? Urs ?
As the action is now delayed I record here the reference which I wanted to put there
Somewhat surprisingly, the authors and roughly this work of them are mentioned (though not in the list of references) in a paper in algebraic geometry
which considers the mirror symmetry and topological states of matters (topological insulators in particular) as main applications.
Clean up a couple parenthetical remarks. The page ring object seems to indeed have the desired diagrams.
added some comments on history to neutrino.
at KLT relations I have expanded the list of references. I added also references for the generalization of these relations that is known these days as “gravity is Yang-Mills squared” or similar (eventually this might want to be a separate entry).
In this course I also expanded the list of references at quantum gravity – As a perturbative quantum field theory
started a bare minimum at Poisson-Lie T-duality, for the moment just so as to have a place to record the two original references
added pointer to:
made more explicit (here) the back-link to topological vector bundle for classical concordance for topological vector bundles
a stub entry, for the moment just so as to give a home to these two references:
Hiroshi Kihara, Model category of diffeological spaces, Journal of Homotopy and Related Structures, (2018), 1-40 (arXiv:1605.06794)
Tadayuki Haraguchi, Kazuhisa Shimakawa, A model structure on the category of diffeological spaces (arXiv:1311.5668)
Spurred by an MO discussion, I added the observation that coproduct inclusions are monic in a distributive category.
I noticed that the entry classifying space is in bad shape. I have added a table of contents and tried to structure it slightly, but much more needs to be done here.
I have added a paragraph on standard classifying spaces for topological principal bundles via the geometric realization of the simplicial space associated to the given topological group.
In the section “For crossed complexes” there is material that had been provided by Ronnie Brown which needs to be harmonized with the existing Idea-section. It proposes something like a general axiomatics on the notion of “classifying space” more than giving details on the geometric realization of crossed complexes
Added specific pointer to argument for solution of hierarchy problem due to Acharya-Kane-Kumar 12.
A stub entry, for the moment just to have a place to record
I had wanted to extract the main definition and theorem from the article into the entry, but got distracted with editing at good open cover instead, and now am out of time for tonight. More later…
added these pointers on the first Pontrjagin class as counting gravitational instanton number:
Tohru Eguchi, Peter Freund, Quantum Gravity and World Topology, Phys. Rev. Lett. 37, 1251 (1967) (doi:10.1103/PhysRevLett.37.1251)
Alexander Belavin, D. Burlankov, The renormalisable theory of gravitation and the einstein equations, Physics Letters A Volume 58, Issue 1, 26 July 1976, Pages 7-8 (doi:10.1016/0375-9601(76)90530-2)
added pointer to:
Todd,
when you see this here and have a minute, would you mind having a look at monoidal category to see if you can remove the query-box discussion there and maybe replace it by some crisp statement?
Thanks!
In response to an email sent to Urs by Andrew Marshall, a slight amendment to good open cover was made in the proof that paracompact manifolds admit good open covers.
I always found that the formulation of the theory of infinity-algebras over an (infinity,1)-operad in Lurie’s Higher Algebra nicely captures what Baez-Dolan called the microcosm principle.
I have added a corresponding remark to the latter entry and expanded slightly.
added publication details for this reference:
and am copying it over to compactly generated topological space, too
added pointer to Bredon 72. Will add this pointer also to various related entries on equivariant homotopy theory
I felt like the (∞,1) section should give an abstract description rather than a model specific one, so I’ve done so, and proved in the abstract the equivalence between the hom-space and slice-category characterizations.
It feels like cheating to invoke the Grothendieck construction for it; can the argument be made just as cleanly without it?
… I’m having trouble with the formatting, so I’m going to do some bisection to track down the issue….