

A296023


Numbers n such that there is precisely 1 group of order n and 2 of order n + 1.


2



3, 5, 13, 33, 37, 61, 73, 85, 133, 141, 145, 157, 177, 193, 213, 217, 277, 313, 345, 393, 397, 421, 445, 457, 481, 501, 537, 541, 553, 561, 565, 613, 661, 673, 697, 705, 717, 733, 745, 757, 793, 817, 865, 877, 885, 913, 933, 957, 973, 997, 1041, 1093, 1141, 1153
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OFFSET

1,1


COMMENTS

Being a subsequence of A003277, all the terms are odd.


LINKS

Muniru A Asiru, Table of n, a(n) for n = 1..2000
H. U. Besche, B. Eick and E. A. O'Brien, A Millennium Project: Constructing Small Groups, Internat. J. Algebra and Computation, 12 (2002), 623644.
Gordon Royle, Numbers of Small Groups
Index entries for sequences related to groups


FORMULA

Sequence is { n  A000001(n) = 1, A000001(n+1) = 2 }.


EXAMPLE

3 is in the sequence because 3 is a cyclic number and A000001(4) = 2. 5 is in the sequence because 5 is a cyclic number and A000001(6) = 2. Although 7 is a cyclic number, 7 is not in the sequence because A000001(8) = 5.


MAPLE

with(GroupTheory): with(numtheory):
for n from 1 to 10^3 do if [NumGroups(n), NumGroups(n+1)]=[1, 2] then print(n); fi; od;


PROG

(GAP) A296023 := Filtered([1..2014], n > [NumberSmallGroups(n), NumberSmallGroups(n+1)]=[1, 2]);


CROSSREFS

Cf. A000001. Subsequence of cyclic numbers A003277.
Sequence in context: A262237 A051401 A304357 * A027039 A283844 A324783
Adjacent sequences: A296020 A296021 A296022 * A296024 A296025 A296026


KEYWORD

nonn


AUTHOR

Muniru A Asiru, Dec 03 2017


STATUS

approved



