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(update link to Factors of generalized Fermat numbers found after Björn & Riesel)
(wiki notes)
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==Björn & Riesel==
 
==Björn & Riesel==
 
In 1998, Björn & Riesel<ref>[https://www.ams.org/journals/mcom/1998-67-221/S0025-5718-98-00891-6/ A.Björn, H.Riesel: "Factors of generalized Fermat numbers"], ''Math. Comp.'' 67 (1998), pp. 441-446</ref> for the first time built a list of large primes of the form: a<sup>2<sup>m</sup></sup>+b<sup>2<sup>m</sup></sup>, ''b > a &ge; 2'' and ''m &ge; 1''.
 
In 1998, Björn & Riesel<ref>[https://www.ams.org/journals/mcom/1998-67-221/S0025-5718-98-00891-6/ A.Björn, H.Riesel: "Factors of generalized Fermat numbers"], ''Math. Comp.'' 67 (1998), pp. 441-446</ref> for the first time built a list of large primes of the form: a<sup>2<sup>m</sup></sup>+b<sup>2<sup>m</sup></sup>, ''b > a &ge; 2'' and ''m &ge; 1''.
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==Notes for this Wiki==
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Divisibilities of [[Generalized Fermat number]]s for any [[Proth prime|Proth primes {{Kbn|+|k|n}}]] are listed as ''GF Divisor'' on their own page. They are listed as '''F(n)''', '''GF(n,a)''' or '''xGF(n,a,b)''' as used by the output of [[PFGW]] or at the [[The Prime Pages]].
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To test any Proth prime for divisibilities of Generalized Fermat numbers the program PFGW can be used. For example to test {{NPr|3|41}} call
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<nowiki>pfgw -gxo -a2 -q"3*2^41+1"</nowiki>
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which results in
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<nowiki>
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3*2^41+1 is a Factor of F38!!!! (0.000000 seconds)
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3*2^41+1 is a Factor of GF(38,3)!!!! (0.000000 seconds)
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3*2^41+1 is a Factor of xGF(37,3,2)!!!! (0.000000 seconds)
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3*2^41+1 is a Factor of xGF(38,4,3)!!!! (0.000000 seconds)
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3*2^41+1 is a Factor of GF(35,6)!!!! (0.000000 seconds)
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3*2^41+1 is a Factor of xGF(36,8,3)!!!! (0.000000 seconds)
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3*2^41+1 is a Factor of xGF(38,9,2)!!!! (0.000000 seconds)
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3*2^41+1 is a Factor of xGF(38,9,8)!!!! (0.000000 seconds)
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3*2^41+1 is a Factor of xGF(39,11,7)!!!! (0.000000 seconds)
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3*2^41+1 is a Factor of GF(38,12)!!!! (0.000000 seconds)
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GFN testing completed</nowiki>
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listed on the [[GF Divisor 3 41|GF Divisor page]].
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Only proper factors of Generalized Fermat numbers are listed.
  
 
==External links==
 
==External links==

Revision as of 07:33, 1 September 2021

There are different kinds of generalized Fermat numbers.

John Cosgrave

John Cosgrave has studied the following numbers:

Numbers of the form: [math]\displaystyle{ F_{n,r} = \sum_{i=0}^{p-1} \ 2^{i p^{n}} \ = \ 2^{(p-1)p^n}+2^{(p-2)p^n}+...+2^{2p^n}+2^{p^n}+1 \ = \ (2^{p^{n+1}}-1)/(2^{p^n}-1) }[/math] where p is the prime of apparition rank r (r(2)=1, r(3)=2, r(5)=3, ...) and n is greater or equal to 0.

[math]\displaystyle{ F_{0,r} }[/math] generates the Mersenne numbers.
[math]\displaystyle{ F_{n,1} }[/math] generates the Fermat numbers.
[math]\displaystyle{ F_{n,2} }[/math] generates the Saouter numbers.

Cosgrave has proven the following properties:

  1. If number [math]\displaystyle{ \sum_{i=0}^{p-1}\ (2^i)^{m} \ }[/math] is prime, then [math]\displaystyle{ m=p^n }[/math].
  2. [math]\displaystyle{ F_{n,r} }[/math] numbers are pairwise relatively prime within a rank and across ranks: [math]\displaystyle{ gcd(F_{n,i},F_{m,j}) =1 }[/math] for all n, m, i and j.
  3. They satisfy a product property like Fermat numbers have. And every [math]\displaystyle{ F_{n,r} }[/math] passes Fermat's test to base 2.

Saouter has proven that [math]\displaystyle{ F_{n,2} }[/math] numbers can be proven prime by using Pépin's test with k=5.

Dubner

In 1985, Dubner for the first time built a list of large primes of the form: b2m+1, b ≥ 2 and m ≥ 1.

See also: H.Dubner, W.Keller: "Factors of generalized Fermat numbers" (1995)[1]

Björn & Riesel

In 1998, Björn & Riesel[2] for the first time built a list of large primes of the form: a2m+b2m, b > a ≥ 2 and m ≥ 1.

Notes for this Wiki

Divisibilities of Generalized Fermat numbers for any Proth primes k•2n+1 are listed as GF Divisor on their own page. They are listed as F(n), GF(n,a) or xGF(n,a,b) as used by the output of PFGW or at the The Prime Pages.

To test any Proth prime for divisibilities of Generalized Fermat numbers the program PFGW can be used. For example to test Proth 3•241+1 call

pfgw -gxo -a2 -q"3*2^41+1"

which results in

3*2^41+1 is a Factor of F38!!!! (0.000000 seconds)
3*2^41+1 is a Factor of GF(38,3)!!!! (0.000000 seconds)
3*2^41+1 is a Factor of xGF(37,3,2)!!!! (0.000000 seconds)
3*2^41+1 is a Factor of xGF(38,4,3)!!!! (0.000000 seconds)
3*2^41+1 is a Factor of GF(35,6)!!!! (0.000000 seconds)
3*2^41+1 is a Factor of xGF(36,8,3)!!!! (0.000000 seconds)
3*2^41+1 is a Factor of xGF(38,9,2)!!!! (0.000000 seconds)
3*2^41+1 is a Factor of xGF(38,9,8)!!!! (0.000000 seconds)
3*2^41+1 is a Factor of xGF(39,11,7)!!!! (0.000000 seconds)
3*2^41+1 is a Factor of GF(38,12)!!!! (0.000000 seconds)
GFN testing completed

listed on the GF Divisor page.

Only proper factors of Generalized Fermat numbers are listed.

External links

References

Generalized Fermat numbers
Miscellaneous
Fermat numbers
Gen. Fermat primes
Gen. Fermat primes
Gen. Fermat primes
categories
GF Divisors