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Vanilla 1.1.10 is a product of Lussumo. More Information: Documentation, Community Support.
I have added to the entry split idempotent the statement (here) that in a triangulated category in which the direct sum of two triangles is a triangle, then idempotents split.
(Maybe that should rather go into the entry Cauchy complete category?)
brief category:people-entry for hyperlinking references at cosmic censorship hypothesis and weak gravity conjecture
I have added to cosmic censorship hypothesis pointer to the recent result (Crisford-Santos 17) showing that it is violated not just in higher dimensions, but also in four spacetime dimensions. And added a minimum of text to go with this. Also cross-linked with weak gravity conjecture.
started some bare minimum omn RR-field tadpole cancellation. Currently I am using this just to complement discussion at intersecting D-brane models
added pointer to
which provides a wealth of computational details and illustrative graphics.
The term “tensor network”, while essentially just a synonym for “string diagram”, has in recent years become widely used and now fully established in quantum physics, especially in its use for discussion of holographic entanglement entropy. It needs a page of its own, if only to point to string diagram while also listing the relevant physics references
I decided that nLab is probably a better place to develop my ideas than ‘wikipedia’, where I posted one article on this topic but never felt confident to add more, since wikipedia is not really meant for ’ongoing research’. I really liked the idea of using this space for ’public notes on my research’ and am looking forward to getting reactions from some of you.
As a starter, I feel that using the first-person form in my reporting is more ’honest’ regarding the academic status of the piece. Prefix orders are not an accepted notion in literature yet, I think. The notion itself is used often, but always in a specific context and was (as far as I know) never generalized - until now…
Pieter Cuijpers
added at adjoint functor
more details in the section In terms of universal arrows;
a bit in the section Examples
Have added to HowTo a description for how to label equations
In the course of this I restructured the section “How to make links to subsections of a page” by giving it a few descriptively-titled subsections.
In the past we had some discussion here about why simplicial methods find so much more attention than cubical methods in higher category theory. The reply (as far as I am concerned at least) has been: because the homotopy theory = weak oo-groupoid theory happens to be well developed for simplicial sets and not so well developed for cubical sets. Historically this apparently goes back to the disappointment that the standard cubical geometric realization to Top does not behave as nicely as the one on simplicial sets does.
Still, it should be useful to have as much cubical homotopy theory around as possible. Many structures are more naturally cubical than simplicial.
So as soon as the Lab comes up again (we are working on it...) I want to create a page model structure on cubical sets and record for instance this reference here:
Jardine, Cubical homotopy theory: a beginning
added some basics to model structure for quasi-categories at general properties
The link for ’equivalent’ at the top redirected to natural isomorphism which (as I understand it) is the correct 1-categorical version of an equivalence of functors, but this initially lead me to believe that a functor was monadic iff it was naturally isomorphic to a forgetful functor from the Eilenberg-Moore category of a monad on its codomain, which would mean that the domain of the functor was literally the Eilenberg-Moore category of some adjunction since natural isomorphism is only defined for parallel functors.
started some minimum, prodded by the suggestion in today’s replacement
that leptoquarks could not only explain the flavour anomalies but also the anomalous events seen last year by the ANITA experiment
brief category:people-entry for hyperlinking references at
Edit to: intersecting D-brane model by Urs Schreiber at 2018-04-01 00:55:01 UTC.
Author comments:
hyperlinked pointer to textbook by Ibanez-Uranga
added pointer to section 7.5 of
stub for von Neumann algebra factor
I expanded proper model category a bit.
In particular I added statement and (simple) proof that in a left proper model category pushouts along cofibrations out of cofibrants are homotopy pushouts. This is at Proper model category -- properties
On page 9 here Clark Barwick supposedly proves the stronger statement that pushouts along all cofibrations in a left proper model category are homotopy pushouts, but for the time being I am failing to follow his proof.
(??)