1972
DOI: 10.2307/1970827
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On Groups Satisfying Poincare Duality

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Cited by 78 publications
(30 citation statements)
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“…With the proper notion of a coarse fibration, the proof above generalizes to show that any "coarse fibration" over a good coarse PD(m) base space with good coarse PD(n) fiber is a good coarse PD(m + n) space. This implies a generalization of a theorem of Bieri [Bie72] and Johnson-Wall [JW72] saying that any extension of a PD(m) group by a PD(n) group is PD(m + n); the generalized statement replaces "PD(n) group" by "coarse PD(n) group".…”
Section: Intersect Pairwise In Rays and These Three Rays Have Infinimentioning
confidence: 96%
“…With the proper notion of a coarse fibration, the proof above generalizes to show that any "coarse fibration" over a good coarse PD(m) base space with good coarse PD(n) fiber is a good coarse PD(m + n) space. This implies a generalization of a theorem of Bieri [Bie72] and Johnson-Wall [JW72] saying that any extension of a PD(m) group by a PD(n) group is PD(m + n); the generalized statement replaces "PD(n) group" by "coarse PD(n) group".…”
Section: Intersect Pairwise In Rays and These Three Rays Have Infinimentioning
confidence: 96%
“…In fact, if K is a maximal compact subgroup of G, then G/K is diffeomorphic to some R" [7], and if T g ifc, then since T is torsion free, T \ G/K is a smooth closed manifold of type K(T, 1). Hence T is actually a Poincaré Duality group [6] of dimension n, thus verifying (¡?.l). Now if A g 'S then A is a finitely generated linear group and hence there are infinitely many primes q such that A is virtually a residually-(finite çr-group}.…”
mentioning
confidence: 76%
“…Extensions and amalgams. Using (2) and criteria for duality one proves There is a converse of this in the sense of [2, Theorem A] ; and there is also a "finite extension Theorem" generalizing the corresponding result in [1] and [5]. …”
mentioning
confidence: 76%