A242250 - OEIS

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A242250

Least positive integer g < prime(n) such that g, 2^g - 1 and (g-1)! are all primitive roots modulo prime(n), or 0 if such a number g does not exist.

1, 0, 3, 5, 8, 11, 5, 13, 21, 10, 12, 22, 24, 34, 13, 31, 18, 6, 41, 11, 14, 53, 8, 6, 26, 3, 12, 5, 47, 10, 45, 10, 5, 32, 12, 6, 24, 3, 15, 3, 6, 41, 19, 10, 8, 30, 3, 67, 5, 35, 20, 13, 99, 19, 7, 7, 3, 118, 5, 15, 22, 3, 73, 59, 91, 8, 137, 46, 20, 55

(list; graph; refs; listen; history; text; internal format)

OFFSET

1,3

COMMENTS

According to the conjecture in A242248, a(n) should be positive for all n > 2.

LINKS

Zhi-Wei Sun, Table of n, a(n) for n = 1..10000

Zhi-Wei Sun, Notes on primitive roots modulo primes, arXiv:1405.0290 [math.NT], 2014.

EXAMPLE

a(5) = 8 since 8, 2^8 - 1 = 255 and (8-1)! = 5040 are all primitive roots modulo prime(5) = 11 with 255 == 5040 == 2 (mod 11), but none of 1, 2^2 - 1, 3, 4, 5, (6-1)! and (7-1)!

is a primitive root modulo 11.

MATHEMATICA

f[n_]:=f[n]=2^n-1

g[n_]:=g[n]=(n-1)!

rMod[m_, n_]:=rMod[m, n]=Mod[m, n, -n/2]

dv[n_]:=dv[n]=Divisors[n]

Do[Do[If[Mod[f[k], Prime[n]]==0, Goto[aa]]; Do[If[Mod[k^(Part[dv[Prime[n]-1], i])-1, Prime[n]]==0||Mod[rMod[f[k], Prime[n]]^(Part[dv[Prime[n]-1], i])-1, Prime[n]]==0||Mod[rMod[g[k], Prime[n]]^(Part[dv[Prime[n]-1], i])-1, Prime[n]]==0, Goto[aa]], {i, 1, Length[dv[Prime[n]-1]]-1}]; Print[n, " ", k]; Goto[bb]; Label[aa]; Continue, {k, 1, Prime[n]-1}]; Print[n, " ", 0]; Label[bb]; Continue, {n, 1, 70}]

CROSSREFS

Cf. A000040, A000142, A000225, A236966, A237112, A242242, A242248.

Sequence in context: A217919 A127700 A101907 * A117668 A184410 A184332

Adjacent sequences: A242247 A242248 A242249 * A242251 A242252 A242253

KEYWORD

nonn

AUTHOR

Zhi-Wei Sun, May 09 2014

STATUS

approved