On the topology and combinatorics of decomposable arrangements
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A complex hyperplane arrangement $\mathcal{A}$ is said to be decomposable if there are no elements in the degree 3 part of its holonomy Lie algebra besides those coming from the rank 2 flats. When this purely combinatorial condition is satisfied, it is known that the associated graded Lie algebra of the arrangement group $G$ decomposes (in degrees greater than 1) as a direct product of free Lie algebras. It follows that the $I$-adic completion of the Alexander invariant $B(G)$ also decomposes as a direct sum of "local" invariants and the Chen ranks of $G$ are the sums of the local contributions. Moreover, if $B(G)$ is separated, then the degree 1 cohomology jump loci of the complement of $\mathcal{A}$ have only local components, and the algebraic monodromy of the Milnor fibration is trivial in degree 1.
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Koszul modules, holonomy Lie algebras, and resonance of groups and CDGAs
Koszul modules B_i(A) associated to a CDGA A are shown to be isomorphic to the infinitesimal Alexander invariant of its holonomy Lie algebra, with classical invariants recovered after completion for groups with 1-fini...
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