Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf ·...
Transcript of Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf ·...
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Cohomology of S3-actions and duality
Martintxo Saralegi ArangurenUniversite d’Artois - France
Knots, Manifolds, and Group ActionsSłubice, 11th of Septembre 2013
Joint work with:Jose Ignacio Royo Prieto (Universidad del Paıs Vasco - EuskalHerriko Unibertsitatea, Espagne)
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 1 / 30
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Scenario
M smooth (C∞), closed (compact, without boundary) manifold;Any smooth action
Φ: S3×M −→ M
Singular cohomologies (real coefficients)
H∗(M),H∗(M/S3)
Exact sequence (Gysin sequence) and spectral sequencesrelating those cohomologies.
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 2 / 30
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Sketch
We construct a Gysin sequence for (singular) actions of S3.
1 Gysin sequences.2 Our result.3 Examples of singular actions of S
3.
4 Duality.
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 3 / 30
![Page 4: Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf · Sketch We construct a Gysin sequence for (singular) actions of S3. 1 Gysin sequences.](https://reader036.fdocuments.in/reader036/viewer/2022081607/5edf9595ad6a402d666aeb30/html5/thumbnails/4.jpg)
Gysin sequence (classical)
For anyπ : M−→B
fiber bundle of fiber Sk, we have the Gysin sequence:
· · · → Hi(B)π∗
−→ Hi(M)
>−→ Hi−k (B)
ε−→ Hi+1(B)→ · · · ,
where>
comes from the integration along the fibers,and ε ∈ Hk+1(B) multiplication by the Euler class.
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 4 / 30
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Gysin sequences
Particular cases: free actions of S1
and S3;
More Gysin sequences (generalizations):I isometric or Riemannian flows (R-actions);I singular actions of S
1;
I semi-free actions of S3;
I singular Riemannian flows;I two orbit types torus actions;I · · ·
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 5 / 30
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Particular case: free S1-action
If we have a smooth free action
S1×M −→ M,
the orbit space M/S1
is a smooth manifold, and we have a fibrebundle
π : M−→M/S1
so, it is the previous situation for k = 1. The Gysin sequence is:
· · · → Hi(M/S1)
π∗
−→ Hi(M)
>−→ Hi−1(M/S
1)
ε−→ Hi+1(M/S
1)→ · · ·
ε ∈ H2(M/S1)
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 6 / 30
![Page 7: Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf · Sketch We construct a Gysin sequence for (singular) actions of S3. 1 Gysin sequences.](https://reader036.fdocuments.in/reader036/viewer/2022081607/5edf9595ad6a402d666aeb30/html5/thumbnails/7.jpg)
Particular case: free S3-action
If we have a smooth free action
S3×M −→ M,
the orbit space M/S3
is a smooth manifold, and we have a fibrebundle
π : M−→M/S3
so, it is the previous situation for k = 3. The Gysin sequence is:
· · · → Hi(M/S3)
π∗
−→ Hi(M)
>−→ Hi−3(M/S
3)
ε−→ Hi+1(M/S
3)→ · · ·
ε ∈ H4(M/S1)
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 7 / 30
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Generalizations
Isometric R-actions
Induce an oriented 1-dimensional foliation F (flow)M/R is not a manifold, but we can study the basic cohomologyH∗(M/F )
We can construct a Gysin sequence: [Kamber-Tondeur, 1983]
· · · → Hi(M/F )π∗
−→ Hi(M)
>−→ Hi−1(M/F )
ε−→ Hi+1(M/F )→ · · ·
In the case of a Riemannian flow, we have [JIRP, 2000]:
· · · → Hi(M/F )π∗
−→ Hi(M)
>−→ Hi−1
κ (M/F )ε−→ Hi+1(M/F )→ · · ·
ε ∈ H2−κ(M/S
1) (twisted cohomology, κ mean cutrvature)
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 8 / 30
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Singular actions of S1
[G. Hector-MS, 1993]
Isotropy groups: finite ones and S1. F fixed point set.
M/S1
is not a manifold, but a stratified pseudomanifold.Intersection cohomology: H∗
p(M/S
1) (Poincare Duality)
· · · → Hip(M/S
1)
π∗
−→ Hi(M)
>−→ Hi−1
p−2(M/S
1)
ε−→ Hi+1
p(M/S
1)→ · · ·
In particular (p = 0), the classical result :
· · · → Hi(M/S1)
π∗
−→ Hi(M)
>−→ Hi−1(M/S
1,F)
ε−→ Hi+1(M/S
1)→ · · ·
ε ∈ H22(M/S
1).
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 9 / 30
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Semi-free actions of S3
[MS, 1993]Isotropy groups: 1 and S
3.
F fixed point set.M/S
3is not a manifold, but a stratified pseudomanifold.
Intersection cohomology: H∗p(M/S
3)
· · · → Hip(M/S
3)
π∗
−→ Hi(M)
>−→ Hi−3
p−4(M/S
3)
ε−→ Hi+1
p(M/S
3)→ · · ·
In particular (p = 0), the classical result :
· · · → Hi(M/S3)
π∗
−→ Hi(M)
>−→ Hi−3(M/S
3,F)
ε−→ Hi+1(M/S
3)→ · · ·
ε ∈ H44(M/S
1).
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 10 / 30
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Sketch
We construct a Gysin sequence for (singular) actions of S3.
1 Gysin sequences.2 Our result.3 Examples of singular actions of S
3.
4 Duality.
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 11 / 30
![Page 12: Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf · Sketch We construct a Gysin sequence for (singular) actions of S3. 1 Gysin sequences.](https://reader036.fdocuments.in/reader036/viewer/2022081607/5edf9595ad6a402d666aeb30/html5/thumbnails/12.jpg)
Gysin sequence for any smooth S3-action
[JIRP-MS 2014]Given any smooth action
S3×M −→ M
then, we have the following Gysin sequence:
−→ Hi(M/S3) −→ Hi(M) −→ Hi−3(M/S
3,Σ/S
3) ⊕
(Hi−2
(MS
1))−Z2
−→ Hi+1(M/S3) −→,
Σ ≡ points whose isotropy is not finite;the Z
2-action is induced by j ∈ S
3;
(−)−Z2 stands for the subspace of antisymmetric elements.Knots, Manifolds, and Group Actions (Słubice) Cohomology of S
3-actions and duality 11th of Septemeber 2013 12 / 30
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Stratification of M induced by the S3-action
Only possible isotropy subgroups (up to conjugation) [G.E.Bredon, 1972]:
I finite;I S
1
I N(S1) S
1∪ j · S
1;
I S3
F = MS3
; Σ = x ∈ M : dim S3
x ≥ 1Stratification:
F ⊆ Σ ⊆ M
Σ is not a smooth manifold, but F , M\Σ and Σ\F are smoothsubmanifolds.Same situation on M/S
3.
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 13 / 30
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Tool for singularities: Verona cohomology.
M/S3
stratified pseudomanifold.We can use Verona cohomology: ω ∈ Ω∗(M\Σ) is a Veronaform if there exist
I ω1 ∈ Ω∗(Σ\F)I ω0 ∈ Ω∗(F)
which are compatible in some sense (blow up, tubularneighborhoods . . . )Verona forms: Ω∗v(M), Ω∗v(M/S
3)
H∗v(M) H∗(M) , H∗v(M/S3) H∗(M/S
3) [A. Verona, 1971]
Analogously, H∗v(M/S3,Σ/S
3) H∗(M/S
3,Σ/S
3)
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 14 / 30
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How do H∗(M) and H∗(M/S3) appear?
We use S3-invariant forms: Ω∗(M)S
3
H∗(Ω∗v(M)S3
) H∗(M)
Gysin problem: The short exact sequence
0 −→ Ω∗v(M/S3)
I→ Ω∗v(M)S
3
−→ Coker I −→ 0
gives the long exact sequence
−→ Hi(M) −→ Hi(Coker I) −→ Hi+1(M/S3) −→ Hi+1(M) −→ · · ·
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 15 / 30
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How do H∗(M/S3,Σ/S
3) and
(Hi−2
(MS
1))−Z2
appear?
Integration along the fibres operator:?: Coker I−→Ω∗−3
v (M/S3,Σ/S
3)
we obtain the short exact sequence:
0 −→ Ker?
→ Coker I>−→ Ω∗−3
v (M/S3,Σ/S
3) −→ 0
By a suitable decomposition of invariant forms, we get that thisshort exact sequence splits, and so we just have to prove that
H∗(Ker? )
=(H∗−2
(MS
1))−Z2
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 16 / 30
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Excision
Using excision techniques, we get (here, Ker>
= A(M)):
H∗(A ∗(M)) = H∗(A ∗(Σ)) = H∗(A ∗(Σ,F)) =H∗(E ,U)
H∗(E /S3 ,U/S3)
where E is the subset of points whose isotropy group is conjugatedto S
1and U a suitable neighborhood of F .
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
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Kunneth
We have the homeomorphisms:
E = S3×N(S
1) E S
1
= (S3/S
1) ×N(S
1)/S
1 E S1
= S2×Z2
E S1
—————————–Hopf action ϕ : S
1× S
3→ S
3given by
z · (z1, z2) = (z · z1, z · z2),
The quotient S3/S
1 S
2.
The group N(S1)/S
1= Z2 acts on S
2by:
j · (x0, x1, x2) = (x0, x1,−x2).
Non orientable!
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
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Kunneth
We have the homeomorphisms:
E = S3×N(S
1) E S
1
= (S3/S
1) ×N(S
1)/S
1 E S1
= S2×Z2
E S1
So, by Kunneth, the cohomlogy H∗(E ,U) is:
H∗(S2×Z2
E S1
,S2×Z2
US1
) =(H∗(S
2) ⊗ H∗(E S
1
,US1
))Z2
=(H0(S
2) ⊗ H∗(E S
1
,US1
))Z2⊕
(H2(S
2) ⊗ H∗−2(E S
1
,US1
))Z2
=(H∗(E S
1
,US1
))Z2⊕
(H∗−2(E S
1
,US1
))−Z2
= · · ·
= H∗(E /S3,U/S
3) ⊕
(H∗−2
(MS
1))−Z2
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 18 / 30
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Sketch
We construct a Gysin sequence for (singular) actions of S3.
1 Gysin sequences.2 Our result.3 Examples of singular actions of S
3.
4 Duality.
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 19 / 30
![Page 21: Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf · Sketch We construct a Gysin sequence for (singular) actions of S3. 1 Gysin sequences.](https://reader036.fdocuments.in/reader036/viewer/2022081607/5edf9595ad6a402d666aeb30/html5/thumbnails/21.jpg)
Multiplication. Action on S2
The Hopf action ϕ : S1× S
3−→S
3given by
z · (z1, z2) = (z1 · z, z2 · z),
The quotient S2 S
3/S
1.
The action ϕµ : S3× S
2→ S
2given by
g· < h >=< g · h >
is a transitive action. All isotropy groups are conjugated to S1.
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
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Singular action of S3
on itself
S3
= ΣS2
= S0∗ S
2(suspension).
The action ϕ : S3× S
3−→S
3is given by
g· < t , x >=< t , g · x > .
F = N,S
MS1
S1
j(z) = z ⇒(H∗(MS
1)−Z2 H1(S
1) .
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
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Action on S7
N SΣ M = S7 = S3∗ S
3(join).
The action ψ : S3× S7−→S7 is given by
g· < z, ω >=< g · z, ϕ(g, ω) > .
Σ = S3
F = N,S
MS1
S1.
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
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Gysin sequence of ψ
H0(M/S3) H0(M)
H4(M/S3) H1
(MS
1)−Z2 H1(S
1)
Helse(M/S3) 0
H4(M/S3,Σ/S
3) H7(S7)
Helse(M/S3,Σ/S
3) 0
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
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Sketch
We construct a Gysin sequence for (singular) actions of S3.
1 Gysin sequences.2 Our result.3 Examples of singular actions of S
3.
4 Duality.
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 24 / 30
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Spectral sequence of F . Duality
(M,F ) Riemannian foliation (fiber bundle, free compact Lie groupaction....)
Filtering Ω∗(M) by the basic (transverse) degree, we get a firstquadrant spectral sequence:
Es,tr (F )⇒ H∗(M)
If the Riemannian foliation (of dimension k and codimension l) isregular, then the duality property is satisfied [ J.A.Alvarez, 1989]
Es,t2 (F ) Ek−s,l−t
2 (F )
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Singular Riemannian foliation
(M,F ) singular Riemannian foliation (compact Lie group action, ...).
This duality exists?
Yes for S1-actions.
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Singular Riemannian foliation
(M,F ) singular Riemannian foliation (compact Lie group action, ...).
This duality exists?
Yes for S1-actions.
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 26 / 30
![Page 29: Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf · Sketch We construct a Gysin sequence for (singular) actions of S3. 1 Gysin sequences.](https://reader036.fdocuments.in/reader036/viewer/2022081607/5edf9595ad6a402d666aeb30/html5/thumbnails/29.jpg)
Singular Riemannian foliation
H∗−1
(M/S1) //
H∗0(M/S
1)······ //
Intersection Poincare Duality
H∗t(M/S
1) // H∗
∞(M/S
1)
H∗(M/S1,F)
Lefschetz Duality
77H∗(M/S
1) H∗((M\F)/S
1)
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 27 / 30
![Page 30: Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf · Sketch We construct a Gysin sequence for (singular) actions of S3. 1 Gysin sequences.](https://reader036.fdocuments.in/reader036/viewer/2022081607/5edf9595ad6a402d666aeb30/html5/thumbnails/30.jpg)
Singular Riemannian foliation
The second term Es,t2 (F ) of the spectral sequence associated to an
action ϕ : S1×M → M is
-
6
t = 0
t = 1
s
t
p = 0 p = t
-
6
s
t
H∗−2(M/S1,F)
kk
++
H∗−2t
(M/S1)
H∗(M/S1)ss
33
H∗((M\F)/S1)
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 28 / 30
![Page 31: Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf · Sketch We construct a Gysin sequence for (singular) actions of S3. 1 Gysin sequences.](https://reader036.fdocuments.in/reader036/viewer/2022081607/5edf9595ad6a402d666aeb30/html5/thumbnails/31.jpg)
Singular Riemannian foliation
(M,F ) singular Riemannian foliation (compact Lie group action, ...).
This duality exists?
Not in general...
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 29 / 30
![Page 32: Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf · Sketch We construct a Gysin sequence for (singular) actions of S3. 1 Gysin sequences.](https://reader036.fdocuments.in/reader036/viewer/2022081607/5edf9595ad6a402d666aeb30/html5/thumbnails/32.jpg)
Singular Riemannian foliation
(M,F ) singular Riemannian foliation (compact Lie group action, ...).
This duality exists?
Not in general...
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 29 / 30
![Page 33: Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf · Sketch We construct a Gysin sequence for (singular) actions of S3. 1 Gysin sequences.](https://reader036.fdocuments.in/reader036/viewer/2022081607/5edf9595ad6a402d666aeb30/html5/thumbnails/33.jpg)
The second term Es,t2 (F ) of the spectral sequence associated to an
action ϕ : S3×M → M is
-
6
t = 0
t = 1
t = 2
t = 3
s
t
H∗−3(M/S3,Σ/S
3)
Duals by using intersection cohomology
xx
(H∗−2(MS
1
))−Z2
Not duals...
))0
H∗(M/S3)
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 30 / 30
![Page 34: Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf · Sketch We construct a Gysin sequence for (singular) actions of S3. 1 Gysin sequences.](https://reader036.fdocuments.in/reader036/viewer/2022081607/5edf9595ad6a402d666aeb30/html5/thumbnails/34.jpg)
The second term Es,t2 (F ) of the spectral sequence associated to an
action ϕ : S3×M → M is
-
6
t = 0
t = 1
t = 2
t = 3
s
t
H∗−3(M/S3,Σ/S
3)
Duals by using intersection cohomology
xx
(H∗−2(MS
1
))−Z2
Not duals...
))0
H∗(M/S3)
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 30 / 30
![Page 35: Cohomology of S -actions and dualityperso.numericable.fr/saralegi2/MS/Diapo/SlubiceJIMS.pdf · Sketch We construct a Gysin sequence for (singular) actions of S3. 1 Gysin sequences.](https://reader036.fdocuments.in/reader036/viewer/2022081607/5edf9595ad6a402d666aeb30/html5/thumbnails/35.jpg)
The second term Es,t2 (F ) of the spectral sequence associated to an
action ϕ : S3×M → M is
-
6
t = 0
t = 1
t = 2
t = 3
s
t
H∗−3(M/S3,Σ/S
3)
Duals by using intersection cohomology
xx
(H∗−2(MS
1
))−Z2
Not duals...
))0
H∗(M/S3)
Knots, Manifolds, and Group Actions (Słubice) Cohomology of S3
-actions and duality 11th of Septemeber 2013 30 / 30