Re: Recognizing numbers using PARI/GP

Pierre Charollois on Thu, 27 Apr 2023 12:54:58 +0200

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Re: Recognizing numbers using PARI/GP

To: pari-users@pari.math.u-bordeaux.fr
Subject: Re: Recognizing numbers using PARI/GP
From: Pierre Charollois <pierre.charollois@gmail.com>
Date: Thu, 27 Apr 2023 12:53:31 +0200
Delivery-date: Thu, 27 Apr 2023 12:54:58 +0200
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In-reply-to: <ZEpFqryRmw9JwEBf@seventeen>
References: <CACESMjKxOVCFG75pZuwdyH+TsJcznjOz6QvL6NNGCyRG=8juVQ@mail.gmail.com> <ZEmc1SR4Thhp9Wxe@seventeen> <ZEnBYWlZ8q1bxGfE@math.u-bordeaux.fr> <ZEpFqryRmw9JwEBf@seventeen>

I am in awe with what you all achieved as a community, and simply want to emphasize this :

Kevin Lucas came up with an 8-digit number like 2.0298832, and the combination of (you guys + google) enabled the outcome of a specific zeta value as a guess.

This is simply amazing experimental maths.

Congratulations !

Best regards,

Pierre

Le jeu. 27 avr. 2023 à 11:51, Bill Allombert <Bill.Allombert@math.u-bordeaux.fr> a écrit :

On Thu, Apr 27, 2023 at 02:27:13AM +0200, Karim Belabas wrote:
> From Bill's first formula (and Milnor's proof of it given in the
> Wikipedia article), you can express this in terms of Lobachevsky's function
> and in turn get your expected relation to Dedekind zeta function:
>
> ? lfun(x^2+3,2)/zeta(2) * sqrt(27) / 2
> %1 = 2.0298832128193072500424051085490405719

So you see it is a multiplicative formula as expected, so you could find it with

? lindep([log(z),log(lfun(-3,2)),log(zeta(2)),log(2),log(3)])
%71 = [-2,2,0,-2,3]~

so z^2 = lfun(-3,2)^2*2^-2*3^3 and
z = 3*sqrt(3)/2*lfun(-3,2)

Cheers,
--
Bill Allombert
Ingénieur de recherche en calcul scientifique ❄
CNRS/IMB UMR 5251

References:
- Recognizing numbers using PARI/GP
  - From: kevin lucas <lucaskevin296@gmail.com>
- Re: Recognizing numbers using PARI/GP
  - From: Bill Allombert <Bill.Allombert@math.u-bordeaux.fr>
- Re: Recognizing numbers using PARI/GP
  - From: Karim Belabas <Karim.Belabas@math.u-bordeaux.fr>
- Re: Recognizing numbers using PARI/GP
  - From: Bill Allombert <Bill.Allombert@math.u-bordeaux.fr>

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