Groups acting on treesSubgroups of p-groupsTrees in groups of exponential growthDo all possible trees arise...
Groups acting on trees
Subgroups of p-groupsTrees in groups of exponential growthDo all possible trees arise as orbit trees of some permutation groups?Subgroups of amenable periodic groups Is there a better description of this class of discrete groups?Groups acting on non-locally-finite trees with independence and specified local actionsWhich finite simple groups can be characterized by their action on a small set?On $ p $-groups with at least one element of order $ p^{2} $Group acting freely on treeFinite groups containing no subgroups of a given order or index
$begingroup$
Assume that X is a tree such that every vertex has infinite degree. And a discrete group G acts on this tree properly (with finite stabilizers) and transitively. Is it true that G contains a non- abelian free subgroup?
gr.group-theory
asked 1 hour ago
Maria GerasimovaMaria Gerasimova
1967
$endgroup$
add a comment |
$begingroup$
Assume that X is a tree such that every vertex has infinite degree. And a discrete group G acts on this tree properly (with finite stabilizers) and transitively. Is it true that G contains a non- abelian free subgroup?
gr.group-theory
asked 1 hour ago
Maria GerasimovaMaria Gerasimova
1967
$endgroup$
$begingroup$
Properly implies finite stabilizers
$endgroup$
– YCor
58 mins ago
add a comment |
$begingroup$
Assume that X is a tree such that every vertex has infinite degree. And a discrete group G acts on this tree properly (with finite stabilizers) and transitively. Is it true that G contains a non- abelian free subgroup?
gr.group-theory
asked 1 hour ago
Maria GerasimovaMaria Gerasimova
1967
$endgroup$
Assume that X is a tree such that every vertex has infinite degree. And a discrete group G acts on this tree properly (with finite stabilizers) and transitively. Is it true that G contains a non- abelian free subgroup?
gr.group-theory
gr.group-theory
asked 1 hour ago
Maria GerasimovaMaria Gerasimova
1967
asked 1 hour ago
Maria GerasimovaMaria Gerasimova
1967
asked 1 hour ago
Maria GerasimovaMaria Gerasimova
1967
asked 1 hour ago
Maria GerasimovaMaria Gerasimova
1967
asked 1 hour ago
Maria GerasimovaMaria Gerasimova
1967
1967
$begingroup$
Properly implies finite stabilizers
$endgroup$
– YCor
58 mins ago
add a comment |
$begingroup$
Properly implies finite stabilizers
$endgroup$
– YCor
58 mins ago
$begingroup$
Properly implies finite stabilizers
$endgroup$
– YCor
58 mins ago
$begingroup$
Properly implies finite stabilizers
$endgroup$
– YCor
58 mins ago
add a comment |
1 Answer
1
active
oldest
votes
$begingroup$
Yes.
You're assuming more than what's necessary.
For an isometric group action on a Gromov-hyperbolic space, you have 5 possibilities (Gromov's classification):
- (a) bounded orbits
- (b) horocyclic (fixes a unique point at infinity, no loxodromic element; preserves "horospheres")
- (c) axial (preserves an axis, on which some element acts loxodromically)
- (d) focal (fixes a unique point at infinity, existence of a loxodromic element)
- (e) general type (= other): implies the existence of a non-abelian free subgroup acting metrically properly.
(a), (b), (c) are clearly ruled out in your setting (transitivity, and valency; valency $ge 3$ would be enough). (d) is ruled out because discrete groups have no metrically proper focal action at all. So (e) holds.
The case of actions on trees is an useful motivating baby case in the above "classification"; all cases can already occur.
answered 52 mins ago
YCorYCor
27.8k482134
$endgroup$
$begingroup$
Thank you! And if I assume that stabilizers are amenable, will it be the same?
$endgroup$
– Maria Gerasimova
26 mins ago
$begingroup$
@MariaGerasimova you have to discard the focal case. Writing, for instance, the solvable group $mathbf{Z}wrmathbf{Z}$ as an ascending HNN extension (w.r.t. an endomorphism with image of finite index), you make it act vertex-transitively on a tree with infinite valency (with abelian stabilizers). So you need to explicitly exclude the case of a fixed point at infinity.
$endgroup$
– YCor
11 mins ago
add a comment |
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1 Answer
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1 Answer
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active
oldest
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active
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active
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votes
$begingroup$
Yes.
You're assuming more than what's necessary.
For an isometric group action on a Gromov-hyperbolic space, you have 5 possibilities (Gromov's classification):
- (a) bounded orbits
- (b) horocyclic (fixes a unique point at infinity, no loxodromic element; preserves "horospheres")
- (c) axial (preserves an axis, on which some element acts loxodromically)
- (d) focal (fixes a unique point at infinity, existence of a loxodromic element)
- (e) general type (= other): implies the existence of a non-abelian free subgroup acting metrically properly.
(a), (b), (c) are clearly ruled out in your setting (transitivity, and valency; valency $ge 3$ would be enough). (d) is ruled out because discrete groups have no metrically proper focal action at all. So (e) holds.
The case of actions on trees is an useful motivating baby case in the above "classification"; all cases can already occur.
answered 52 mins ago
YCorYCor
27.8k482134
$endgroup$
$begingroup$
Thank you! And if I assume that stabilizers are amenable, will it be the same?
$endgroup$
– Maria Gerasimova
26 mins ago
$begingroup$
@MariaGerasimova you have to discard the focal case. Writing, for instance, the solvable group $mathbf{Z}wrmathbf{Z}$ as an ascending HNN extension (w.r.t. an endomorphism with image of finite index), you make it act vertex-transitively on a tree with infinite valency (with abelian stabilizers). So you need to explicitly exclude the case of a fixed point at infinity.
$endgroup$
– YCor
11 mins ago
add a comment |
$begingroup$
Yes.
You're assuming more than what's necessary.
For an isometric group action on a Gromov-hyperbolic space, you have 5 possibilities (Gromov's classification):
- (a) bounded orbits
- (b) horocyclic (fixes a unique point at infinity, no loxodromic element; preserves "horospheres")
- (c) axial (preserves an axis, on which some element acts loxodromically)
- (d) focal (fixes a unique point at infinity, existence of a loxodromic element)
- (e) general type (= other): implies the existence of a non-abelian free subgroup acting metrically properly.
(a), (b), (c) are clearly ruled out in your setting (transitivity, and valency; valency $ge 3$ would be enough). (d) is ruled out because discrete groups have no metrically proper focal action at all. So (e) holds.
The case of actions on trees is an useful motivating baby case in the above "classification"; all cases can already occur.
answered 52 mins ago
YCorYCor
27.8k482134
$endgroup$
$begingroup$
Thank you! And if I assume that stabilizers are amenable, will it be the same?
$endgroup$
– Maria Gerasimova
26 mins ago
$begingroup$
@MariaGerasimova you have to discard the focal case. Writing, for instance, the solvable group $mathbf{Z}wrmathbf{Z}$ as an ascending HNN extension (w.r.t. an endomorphism with image of finite index), you make it act vertex-transitively on a tree with infinite valency (with abelian stabilizers). So you need to explicitly exclude the case of a fixed point at infinity.
$endgroup$
– YCor
11 mins ago
add a comment |
$begingroup$
Yes.
You're assuming more than what's necessary.
For an isometric group action on a Gromov-hyperbolic space, you have 5 possibilities (Gromov's classification):
- (a) bounded orbits
- (b) horocyclic (fixes a unique point at infinity, no loxodromic element; preserves "horospheres")
- (c) axial (preserves an axis, on which some element acts loxodromically)
- (d) focal (fixes a unique point at infinity, existence of a loxodromic element)
- (e) general type (= other): implies the existence of a non-abelian free subgroup acting metrically properly.
(a), (b), (c) are clearly ruled out in your setting (transitivity, and valency; valency $ge 3$ would be enough). (d) is ruled out because discrete groups have no metrically proper focal action at all. So (e) holds.
The case of actions on trees is an useful motivating baby case in the above "classification"; all cases can already occur.
answered 52 mins ago
YCorYCor
27.8k482134
$endgroup$
Yes.
You're assuming more than what's necessary.
For an isometric group action on a Gromov-hyperbolic space, you have 5 possibilities (Gromov's classification):
- (a) bounded orbits
- (b) horocyclic (fixes a unique point at infinity, no loxodromic element; preserves "horospheres")
- (c) axial (preserves an axis, on which some element acts loxodromically)
- (d) focal (fixes a unique point at infinity, existence of a loxodromic element)
- (e) general type (= other): implies the existence of a non-abelian free subgroup acting metrically properly.
(a), (b), (c) are clearly ruled out in your setting (transitivity, and valency; valency $ge 3$ would be enough). (d) is ruled out because discrete groups have no metrically proper focal action at all. So (e) holds.
The case of actions on trees is an useful motivating baby case in the above "classification"; all cases can already occur.
answered 52 mins ago
YCorYCor
27.8k482134
answered 52 mins ago
YCorYCor
27.8k482134
answered 52 mins ago
YCorYCor
27.8k482134
answered 52 mins ago
YCorYCor
27.8k482134
27.8k482134
$begingroup$
Thank you! And if I assume that stabilizers are amenable, will it be the same?
$endgroup$
– Maria Gerasimova
26 mins ago
$begingroup$
@MariaGerasimova you have to discard the focal case. Writing, for instance, the solvable group $mathbf{Z}wrmathbf{Z}$ as an ascending HNN extension (w.r.t. an endomorphism with image of finite index), you make it act vertex-transitively on a tree with infinite valency (with abelian stabilizers). So you need to explicitly exclude the case of a fixed point at infinity.
$endgroup$
– YCor
11 mins ago
add a comment |
$begingroup$
Thank you! And if I assume that stabilizers are amenable, will it be the same?
$endgroup$
– Maria Gerasimova
26 mins ago
$begingroup$
@MariaGerasimova you have to discard the focal case. Writing, for instance, the solvable group $mathbf{Z}wrmathbf{Z}$ as an ascending HNN extension (w.r.t. an endomorphism with image of finite index), you make it act vertex-transitively on a tree with infinite valency (with abelian stabilizers). So you need to explicitly exclude the case of a fixed point at infinity.
$endgroup$
– YCor
11 mins ago
$begingroup$
Thank you! And if I assume that stabilizers are amenable, will it be the same?
$endgroup$
– Maria Gerasimova
26 mins ago
$begingroup$
Thank you! And if I assume that stabilizers are amenable, will it be the same?
$endgroup$
– Maria Gerasimova
26 mins ago
$begingroup$
@MariaGerasimova you have to discard the focal case. Writing, for instance, the solvable group $mathbf{Z}wrmathbf{Z}$ as an ascending HNN extension (w.r.t. an endomorphism with image of finite index), you make it act vertex-transitively on a tree with infinite valency (with abelian stabilizers). So you need to explicitly exclude the case of a fixed point at infinity.
$endgroup$
– YCor
11 mins ago
$begingroup$
@MariaGerasimova you have to discard the focal case. Writing, for instance, the solvable group $mathbf{Z}wrmathbf{Z}$ as an ascending HNN extension (w.r.t. an endomorphism with image of finite index), you make it act vertex-transitively on a tree with infinite valency (with abelian stabilizers). So you need to explicitly exclude the case of a fixed point at infinity.
$endgroup$
– YCor
11 mins ago
add a comment |
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$begingroup$
Properly implies finite stabilizers
$endgroup$
– YCor
58 mins ago