Discussion of Homotopy Type Theory and Univalent Foundations
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From: Michael Shulman <shulman@sandiego.edu>
To: Ali Caglayan <alizter@gmail.com>
Cc: "HomotopyTypeTheory@googlegroups.com"
	<HomotopyTypeTheory@googlegroups.com>
Subject: Re: [HoTT] Localising spheres in HoTT
Date: Wed, 15 Aug 2018 01:51:30 -0700	[thread overview]
Message-ID: <CAOvivQzDRDgpKac=TzOMsdGPa6OWahigxzKZDfkQBdCQDF2UQg@mail.gmail.com> (raw)
In-Reply-To: <a08e064b-a25e-4e29-beb7-6bee00ff1871@googlegroups.com>

Localizations at arbitrary families of maps are constructed in
arXiv:1706.07526 using a recursive HIT.  Egbert Rijke has shown that
in the case of localizing at maps between omega-compact types, such as
circles and spheres (therefore including this case), the localization
can be constructed as a non-recursive sequential colimit which is at
least similar to the classical construction as a telescope; but I
don't think this work is published anywhere yet.
On Sat, Aug 11, 2018 at 1:58 PM Ali Caglayan <alizter@gmail.com> wrote:
>
> So I have been reading https://arxiv.org/abs/1807.04155
>
> In it they detail a construction for localising types at a prime. I want to construct ΩS²ⁿ⁺¹₍₂₎, this is an important space because it appears in the James fibration from classical algebraic topology:
>
> Sⁿ₍₂₎ --> ΩSⁿ⁺¹₍₂₎ --> ΩS²ⁿ⁺¹₍₂₎
>
> This is the fibration that gives the EHP spectral sequence at p=2 and allows one to compute homotopy groups (at least 2-primary parts) inductively.
>
> So, in HoTT one can hope for a type family ΩS²ⁿ⁺¹₍₂₎ --> U, which has the proper fiber and base space. Now as far as I know, the only homotopy theoretic fibrations that have been formalised in HoTT are the Hopf-fibrations and their general H-space construction.
>
> So this is really two questions:
>
>    1. How to define ΩS²ⁿ⁺¹₍₂₎
>    2. How to come up with the HoTT version of the James fibration
>
> Now the first one is kind of already done. Heres how to construct it:
>
> Let S : N -> N be defined as S(k) = k if k is prime and k =/= 2. S(k) = 1 otherwise. Now by theorem 4.20, we can define s : N -> N by s(k) = prod 0<=n<=k S(k). So s(k) is the product of all primes less than k, excluding 2.
>
> Now consider the diagram:
>        1        1        1        3         3        3.5     3.5     s(7)
>   X ----> X ----> X ----> X ----> X ----> X ----> X ----> X ----> ....
>
> Where the integers k denote the deg(k) map, and X is ΩS²ⁿ⁺¹. The colimit of this diagram should be our desired space ΩS²ⁿ⁺¹₍₂₎.
>
> If you recall from the HoTT book, the colimit of a diagram has constructors for each node in the graph, and each arrow. I haven't really worked out the details but this should give us some higher inductive type which is (at least) equivalent to ΩS²ⁿ⁺¹₍₂₎. I'm not even sure this is the kind of HIT that you can write down.
>
> Here are my questions:
>
>    1. Can we write down a HIT for a type localised at a prime?
>    2. Does anybody know any work on other fibration in HoTT?
>    3. Do you think that localisation methods from classical algebraic topology will work in HoTT?
>
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      reply	other threads:[~2018-08-15  8:51 UTC|newest]

Thread overview: 2+ messages / expand[flat|nested]  mbox.gz  Atom feed  top
2018-08-11 20:58 Ali Caglayan
2018-08-15  8:51 ` Michael Shulman [this message]

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