Difference between revisions of "Sporadic simple group"
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| $2^{13}\d 3^7\d 5^2\d 7\d 11\d 13$ | | $2^{13}\d 3^7\d 5^2\d 7\d 11\d 13$ | ||
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− | | $ | + | | $McL$ |
| McLaughlin group | | McLaughlin group | ||
| $2^7\d 3^6\d 5^3\d 7\d 11$ | | $2^7\d 3^6\d 5^3\d 7\d 11$ | ||
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| valign="top"|{{Ref|Go}}||valign="top"| D. Gorenstein, "Finite simple groups. An introduction to their classification", University Series in Mathematics. Plenum Publishing Corp., New York (1982) {{MR|0698782}} {{ZBL|0483.20008}} | | valign="top"|{{Ref|Go}}||valign="top"| D. Gorenstein, "Finite simple groups. An introduction to their classification", University Series in Mathematics. Plenum Publishing Corp., New York (1982) {{MR|0698782}} {{ZBL|0483.20008}} | ||
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− | | valign="top"|{{Ref|GrMeSe}}||valign="top"| R.L. Griess, U. Meierfrankenfeld, Y. Segev, "A uniqueness proof for the Monster". ''Ann. of Math.'' (2) '''130''' (1989), no. 3, 567–602. | + | | valign="top"|{{Ref|GrMeSe}}||valign="top"| R.L. Griess, U. Meierfrankenfeld, Y. Segev, "A uniqueness proof for the Monster". ''Ann. of Math.'' (2) '''130''' (1989), no. 3, 567–602. {{MR|1025167}} {{ZBL|0691.20014}} |
|- | |- | ||
| valign="top"|{{Ref|Sy}}||valign="top"| S.A. Syskin, "Abstract properties of the simple sporadic groups" ''Russian Math. Surveys'', '''35''' : 5 (1980) pp. 209–246 ''Uspekhi Mat. Nauk'', '''35''' : 5 (1980) pp. 181–212 {{MR|0595144}} {{ZBL|0466.20006}} | | valign="top"|{{Ref|Sy}}||valign="top"| S.A. Syskin, "Abstract properties of the simple sporadic groups" ''Russian Math. Surveys'', '''35''' : 5 (1980) pp. 209–246 ''Uspekhi Mat. Nauk'', '''35''' : 5 (1980) pp. 181–212 {{MR|0595144}} {{ZBL|0466.20006}} | ||
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Latest revision as of 09:12, 1 May 2012
2020 Mathematics Subject Classification: Primary: 20D08 [MSN][ZBL]
A sporadic simple group is a simple finite group that does not belong to any of the known infinite series of simple finite groups. The twenty-six sporadic simple groups are listed in the following table.
$\def\d{\cdot}$
Notation | Name | Order |
---|---|---|
$M_{11}$ | Mathieu groups | $2^4\d 3^2\d 5\d 11$ |
$M_{12}$ | $2^6\d 3^3\d 5\d 11$ | |
$M_{22}$ | $2^7\d 3^2\d 5\d 7\d 11$ | |
$M_{23}$ | $2^7\d 3^2\d 5\d 7\d 11\d 23$ | |
$M_{24}$ | $2^{10}\d 3^3\d 5\d 7\d 11\d 23$ | |
$J_1$ | Janko group | $2^3\d 3\d 5\d 7\d 11\d 19$ |
$J_2$, $HJ$ | Hall–Janko group | $2^7\d 3^3\d 5^2\d 7$ |
$J_3$, $HJM$ | Hall–Janko–McKay group | $2^7\d 3^5\d 5\d 17\d 19$ |
$J_4$ | Janko group | $2^{21}\d 3^3\d 5\d 7\d 11^3\d 23\d 29\d 31\d 37\d 43$ |
$Co_1$ | Conway groups | $2^{21}\d 3^9\d 5^4\d 7^2\d 11\d 13\d 23$ |
$Co_2$ | $2^{18}\d 3^6\d 5^3\d 7\d 11\d 23$ | |
$Co_3$ | $2^{10}\d 3^7\d 5^3\d 7\d 11\d 23$ | |
$F_{22}$, $M(22)$ | Fischer groups | $2^{17}\d 3^9\d 5^2\d 7\d 11\d 13$ |
$F_{23}$, $M(23)$ | $2^{18}\d 3^{13}\d 5^2\d 7\d 11\d 13\d 17\d 23$ | |
$F_{24}^\prime$, $M(24)^\prime$ | $2^{21}\d 3^{16}\d 5^2\d 7^3\d 11\d 13\d 17\d 23\d 29$ | |
$HS$ | Higman–Sims group | $2^9\d 3^2\d 5^3\d 7\d 11$ |
$He$, $HHM$ | Held–Higman–McKay group | $2^{10}\d 3^3\d 5^2\d 7^3\d 17$ |
$Suz$ | Suzuki group | $2^{13}\d 3^7\d 5^2\d 7\d 11\d 13$ |
$McL$ | McLaughlin group | $2^7\d 3^6\d 5^3\d 7\d 11$ |
$Ly$ | Lyons group | $2^8\d 3^7\d 5^6\d 7\d 11\d 31\d 37\d 67$ |
$Ru$ | Rudvalis group | $2^{14}\d 3^3\d 5^3\d 7\d 13\d 29$ |
$O'N$, $O'NS$ | O'Nan–Sims group | $2^9\d 3^4\d 5\d 7^3\d 11\d 19\d 31$ |
$F_1$, $M$ | Monster, Fischer–Griess group | $2^{46}\d 3^{20}\d 5^9\d 7^6\d 11^2\d 13^3\d 17\d 19\d 23\d 29\d 31\d 41\d 47\d 59\d 71$ |
$F_2$, $B$ | Baby monster | $2^{41}\d 3^{13}\d 5^6\d 7^2\d 11\d 13\d 17\d 19\d 23\d 31\d 47$ |
$F_3$, $E$, $Th$ | Thompson group | $2^{15}\d 3^{10}\d 5^3\d 7^2\d 13\d 19\d 31$ |
$F_5$, $D$, $HN$ | Harada–Norton group | $2^{14}\d 3^6\d 5^6\d 7\d 11\d 19$ |
Comments
The classification of the finite simple groups (cf. [As], [Go]) has led to the conclusion that every non-Abelian finite simple group is isomorphic to: an alternating group on at least 5 letters, a group of (twisted or untwisted) Lie type, or one of the above 26 sporadic groups. A discussion of the proof is given in [Go] up to the uniqueness proof for the monster group $F_1$, which did appear in [GrMeSe].
References
[As] | M. Aschbacher, "The finite simple groups and their classification", Yale Univ. Press (1980) MR0555880 Zbl 0435.20007 |
[CoCuNoPaWi] | J.H. Conway, R.T. Curtis, S.P. Norton, R.A. Parker, R.A. Wilson, "Atlas of finite groups", Clarendon Press (1985) MR0827219 Zbl 0568.20001 |
[Go] | D. Gorenstein, "Finite simple groups. An introduction to their classification", University Series in Mathematics. Plenum Publishing Corp., New York (1982) MR0698782 Zbl 0483.20008 |
[GrMeSe] | R.L. Griess, U. Meierfrankenfeld, Y. Segev, "A uniqueness proof for the Monster". Ann. of Math. (2) 130 (1989), no. 3, 567–602. MR1025167 Zbl 0691.20014 |
[Sy] | S.A. Syskin, "Abstract properties of the simple sporadic groups" Russian Math. Surveys, 35 : 5 (1980) pp. 209–246 Uspekhi Mat. Nauk, 35 : 5 (1980) pp. 181–212 MR0595144 Zbl 0466.20006 |
Sporadic simple group. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Sporadic_simple_group&oldid=25788