Remark

(structural over material definition)

Beware that most texts insists on stating the choices in Def. as that of

1. two separate subgroups $C_i \xhookrightarrow{\iota_i} Z(G_i)$

2. an isomorphism $C_1 \xrightarrow[\simeq]{\phi} C_2$ between them

and insists that the second groups as via $(-)^{-1}\circ \phi$

These clauses matter if one thinks of the subgroup inclusions as in material set theory. But we speak structural set theory, which means that a subgroup inclusion as in (1) is really a choice of monic homomorphism, and this choice already absorbs the choice of $\phi$ and or of $(-)^{-1}\circ \phi$.

Remark

(notation)

Beware that there is no widely accepted convention for the notation of central products, and that most notational conventions suppress the choices of central subgroups involved. The “$\circ$”-notation is popular in finite group-theory, while in Riemannian geometry people tend to use “$\cdot$” (see Sp(n).Sp(1)) or just plain juxtaposition, with no symbol for the central product at all.