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THE BESTVINA–BRADY CONSTRUCTION REVISITED: GEOMETRIC COMPUTATION OF [sum ]-INVARIANTS FOR RIGHT-ANGLED ARTIN GROUPS

Published online by Cambridge University Press:  01 December 1999

KAI-UWE BUX
Affiliation:
Department of Mathematics, Room 233, 155 S, 1400 E, University of Utah, Salt Lake City, UT 84122-0090, USA; [email protected]
CARLOS GONZALEZ
Affiliation:
Fachbereich Mathematik, Johann Wolfgang Goethe-Universität, D-60054 Frankfurt-am-Main, Germany; [email protected]
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Abstract

The starting point of our investigation is the remarkable paper [2] in which Bestvina and Brady gave an example of an infinitely related group of type FP2. The result about right-angled Artin groups behind their example is best interpreted by means of the Bieri–Strebel–Neumann–Renz Σ-invariants.

For a group G the invariants Σn(G) and Σn(G, ℤ) are sets of non-trivial homomorphisms χ[ratio ]G→ℝ. They contain full information about finiteness properties of subgroups of G with abelian factor groups. The main result of [2] determines for the canonical homomorphism χ, taking each generator of the right-angled Artin group G to 1, the maximal n with χ ∈ Σn(G), respectively χ ∈ Σn(G, ℤ).

In [6] Meier, Meinert and VanWyk completed the picture by computing the full Σ-invariants of right-angled Artin groups using as well the result of Bestvina and Brady as algebraic techniques from Σ-theory. Here we offer a new account of their result which is totally geometric. In fact, we return to the Bestvina–Brady construction and simplify their argument considerably by bringing a more general notion of links into play. At the end of the first section we re-prove their main result. By re-computing the full Σ-invariants, we show in the second section that the simplification even adds some power to the method. The criterion we give provides new insight on the geometric nature of the ‘n-domination’ condition employed in [6].

Type
Notes and Papers
Copyright
The London Mathematical Society 1999

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