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    Principalization algorithm via class group structure

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    For an algebraic number field K with 3-class group Cl3(K)Cl_3(K) of type (3,3), the structure of the 3-class groups Cl3(Ni)Cl_3(N_i) of the four unramified cyclic cubic extension fields NiN_i, 1≤i≤41\le i\le 4, of K is calculated with the aid of presentations for the metabelian Galois group G32(K)=Gal(F32(K)∣K)G_3^2(K)=Gal(F_3^2(K) | K) of the second Hilbert 3-class field F32(K)F_3^2(K) of K. In the case of a quadratic base field K=Q(D)K=\mathbb{Q}(\sqrt{D}) it is shown that the structure of the 3-class groups of the four S3S_3-fields N1,…,N4N_1,\ldots,N_4 frequently determines the type of principalization of the 3-class group of K in N1,…,N4N_1,\ldots,N_4. This provides an alternative to the classical principalization algorithm by Scholz and Taussky. The new algorithm, which is easily automatizable and executes very quickly, is implemented in PARI/GP and is applied to all 4596 quadratic fields K with 3-class group of type (3,3) and discriminant −106<D<107-10^6<D<10^7 to obtain extensive statistics of their principalization types and the distribution of their second 3-class groups G32(K)G_3^2(K) on various coclass trees of the coclass graphs G(3,r), 1≤r≤61\le r\le 6, in the sense of Eick, Leedham-Green, and Newman.Comment: 33 pages, 2 figures, presented at the Joint CSASC Conference, Danube University, Krems, Austria, September 201
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