Algebraic mapping class groups: errata and addenda

Warren Dicks and Edward Formanek,
Automorphism subgroups of finite index in algebraic mapping class groups.
J. Algebra 189 (1997), 58-89.

Addenda

October 2, 2003

Vladimir Shpilrain has drawn our attention to the following article which we overlooked.

H. Zieschang, "A note on the mapping class groups of surfaces and planar discontinuous groups,"
pages 206-213 in "Low-dimensional topology (Chelwood Gate, 1982)", ed. by R. Fenn,
London Math. Soc. Lecture Note Ser., Vol. 95,
Cambridge Univ. Press, Cambridge, 1985.

This article extends, to (possibly unorientable) surfaces with finitely many punctures and multiple points,
the topological proof due to J. Birman, L. Bers, and C. Maclachlan of the results for orientable surfaces
with finitely many punctures, which we state as Theorem 4.9 and Remark 4.10.

At the end of Section 1, the author says the results can be "proved using only combinatorial
group-theoretical arguments", by a "long" proof, that "consists of many case considerations".
It seems therefore that we can no longer claim priority in this matter, for the case that we consider.
However, it may be that our proof is simpler.

Errata

November 14, 2007

On page 62, lines 10 and 18, results of Dehn and Epstein, respectively, are misquoted. If
(g,n) = (0,0) or (0,1), then the fundamental group of the (g,n)-surface is trivial, but orientation-
reversing maps of the (g,n)-surface are not isotopic to the identity; here the topological mapping
class group has order two, while the algebraic mapping class group is trivial and should therefore
be redefined to have order two, in these two cases. With this new definition, Theorem 4.9 would
have no exceptions.

On page 63, delete line 16, that is, the third paragraph.

On page 66, at the end of the 8th last line, add a closing ].

On page 76, lines 12-13, the statement of Proposition 4.7 is not correct, since a free group is
its own universal central extension. There are three cases, corresponding to Sigma_g,n being
abelian, or a nonabelian surface group, or a nonabelian free group:
(a) If 2g + n -1 \le 1, then Sigma_g,n /Ctr   and   \hat Sigma_g,n+₁ are both trivial.
(b) If   n = 0 and 2g + n -1 \ge 2 (that is, g \ge 2) , then \hat Sigma_g,₁ is the universal central
     extension of the (nonabelian) surface group Sigma_g,0 =   Sigma_g,₀ /Ctr .
(c) If n \ge 1 and 2g + n -1 \ge 2, then   Sigma_g,n= Sigma_g,n /Ctr is a (nonabelian) free group
      of rank 2g + n -1, and \hat Sigma_g,n+₁ is isomorphic to the direct product of Sigma_g,n and
      an infinite cyclic group.

On page 77, line 6, change "Sigma_g,N+₁" to "Sigma_g,n+₁".

On page 77, line 12, change "Corollary 5.4.3" to "Theorem 5.7.2".

On page 77, lines 16-17, Change "the inner automorphisms lies" to "the inner automorphisms and
the braid automorphisms lie". (Recall that the braid automorphisms are sigma_i, ( i = 1, ..., n),
where sigma_isends z_ito z_i₊₁, sends z_i₊₁ to z_i₊₁^-1z_iz_i₊₁, and fixes all the other generators.)

On page 88, line 11, change "other" to "outer".

On page 88, on the 6th last line, add "pp. 199-270 in "Topology and geometry-Rohlin Seminar",
ed. by O. Ya. Viro," before "Lecture Notes".

On page 89, line 2, change "(1985)" to "(1975)".

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