2016-09-09 20:43:09 +00:00
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/-
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Copyright (c) 2016 Floris van Doorn. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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2017-07-08 12:39:23 +00:00
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Authors: Floris van Doorn, Ulrik Buchholtz
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2016-09-09 20:43:09 +00:00
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2017-02-20 21:23:57 +00:00
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Reduced cohomology of spectra and cohomology theories
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2016-09-09 20:43:09 +00:00
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-/
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2018-10-03 23:39:08 +00:00
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import ..spectrum.basic ..algebra.arrow_group ..algebra.product_group ..choice
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..homotopy.fwedge ..homotopy.pushout ..homotopy.EM ..homotopy.wedge
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2017-02-18 21:56:38 +00:00
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open eq spectrum int trunc pointed EM group algebra circle sphere nat EM.ops equiv susp is_trunc
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2018-10-25 01:19:26 +00:00
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function fwedge cofiber bool lift sigma is_equiv choice pushout algebra unit pi is_conn wedge
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2017-02-18 21:56:38 +00:00
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2017-02-02 22:14:48 +00:00
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namespace cohomology
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2018-10-25 01:19:26 +00:00
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universe variables u u' v w
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2017-05-24 12:25:58 +00:00
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/- The cohomology of X with coefficients in Y is
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trunc 0 (A →* Ω[2] (Y (n+2)))
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2017-06-05 21:09:48 +00:00
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In the file arrow_group (in algebra) we construct the group structure on this type.
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2017-09-16 00:39:51 +00:00
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Equivalently, it's
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πₛ[n] (sp_cotensor X Y)
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2017-05-24 12:25:58 +00:00
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-/
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2016-11-24 04:54:57 +00:00
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definition cohomology (X : Type*) (Y : spectrum) (n : ℤ) : AbGroup :=
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AbGroup_trunc_pmap X (Y (n+2))
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2016-09-09 20:43:09 +00:00
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2016-11-24 04:54:57 +00:00
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definition ordinary_cohomology [reducible] (X : Type*) (G : AbGroup) (n : ℤ) : AbGroup :=
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cohomology X (EM_spectrum G) n
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2016-11-24 04:54:57 +00:00
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definition ordinary_cohomology_Z [reducible] (X : Type*) (n : ℤ) : AbGroup :=
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ordinary_cohomology X agℤ n
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2017-07-02 00:14:18 +00:00
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definition unreduced_cohomology (X : Type) (Y : spectrum) (n : ℤ) : AbGroup :=
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cohomology X₊ Y n
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definition unreduced_ordinary_cohomology [reducible] (X : Type) (G : AbGroup) (n : ℤ) : AbGroup :=
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unreduced_cohomology X (EM_spectrum G) n
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definition unreduced_ordinary_cohomology_Z [reducible] (X : Type) (n : ℤ) : AbGroup :=
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unreduced_ordinary_cohomology X agℤ n
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definition parametrized_cohomology {X : Type*} (Y : X → spectrum) (n : ℤ) : AbGroup :=
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AbGroup_trunc_ppi (λx, Y x (n+2))
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definition ordinary_parametrized_cohomology [reducible] {X : Type*} (G : X → AbGroup) (n : ℤ) :
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AbGroup :=
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parametrized_cohomology (λx, EM_spectrum (G x)) n
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definition unreduced_parametrized_cohomology {X : Type} (Y : X → spectrum) (n : ℤ) : AbGroup :=
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parametrized_cohomology (add_point_spectrum Y) n
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definition unreduced_ordinary_parametrized_cohomology [reducible] {X : Type} (G : X → AbGroup)
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(n : ℤ) : AbGroup :=
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unreduced_parametrized_cohomology (λx, EM_spectrum (G x)) n
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notation `H^` n `[`:0 X:0 `, ` Y:0 `]`:0 := cohomology X Y n
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notation `oH^` n `[`:0 X:0 `, ` G:0 `]`:0 := ordinary_cohomology X G n
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notation `H^` n `[`:0 X:0 `]`:0 := ordinary_cohomology_Z X n
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notation `uH^` n `[`:0 X:0 `, ` Y:0 `]`:0 := unreduced_cohomology X Y n
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notation `uoH^` n `[`:0 X:0 `, ` G:0 `]`:0 := unreduced_ordinary_cohomology X G n
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notation `uH^` n `[`:0 X:0 `]`:0 := unreduced_ordinary_cohomology_Z X n
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notation `pH^` n `[`:0 binders `, ` r:(scoped Y, parametrized_cohomology Y n) `]`:0 := r
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notation `opH^` n `[`:0 binders `, ` r:(scoped G, ordinary_parametrized_cohomology G n) `]`:0 := r
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notation `upH^` n `[`:0 binders `, ` r:(scoped Y, unreduced_parametrized_cohomology Y n) `]`:0 := r
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notation `uopH^` n `[`:0 binders `, ` r:(scoped G, unreduced_ordinary_parametrized_cohomology G n) `]`:0 := r
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2016-09-09 20:43:09 +00:00
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2017-05-24 12:25:58 +00:00
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/- an alternate definition of cohomology -/
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2017-09-22 00:14:24 +00:00
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2017-07-02 00:14:18 +00:00
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definition parametrized_cohomology_isomorphism_shomotopy_group_spi {X : Type*} (Y : X → spectrum)
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{n m : ℤ} (p : -m = n) : pH^n[(x : X), Y x] ≃g πₛ[m] (spi X Y) :=
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2017-07-08 11:22:31 +00:00
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begin
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apply isomorphism.trans (trunc_ppi_loop_isomorphism (λx, Ω (Y x (n + 2))))⁻¹ᵍ,
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apply homotopy_group_isomorphism_of_pequiv 0, esimp,
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have q : sub 2 m = n + 2,
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from (int.add_comm (of_nat 2) (-m) ⬝ ap (λk, k + of_nat 2) p),
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2017-07-08 21:45:18 +00:00
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rewrite q, symmetry, apply loop_pppi_pequiv
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end
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definition unreduced_parametrized_cohomology_isomorphism_shomotopy_group_supi {X : Type}
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(Y : X → spectrum) {n m : ℤ} (p : -m = n) : upH^n[(x : X), Y x] ≃g πₛ[m] (supi X Y) :=
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2017-07-08 14:11:11 +00:00
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begin
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refine parametrized_cohomology_isomorphism_shomotopy_group_spi (add_point_spectrum Y) p ⬝g _,
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apply shomotopy_group_isomorphism_of_pequiv, intro k,
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apply pppi_add_point_over
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end
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definition cohomology_isomorphism_shomotopy_group_sp_cotensor (X : Type*) (Y : spectrum) {n m : ℤ}
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(p : -m = n) : H^n[X, Y] ≃g πₛ[m] (sp_cotensor X Y) :=
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begin
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refine parametrized_cohomology_isomorphism_shomotopy_group_spi (λx, Y) p ⬝g _,
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apply shomotopy_group_isomorphism_of_pequiv, intro k,
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apply pppi_pequiv_ppmap
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end
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2017-07-08 14:11:11 +00:00
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definition unreduced_cohomology_isomorphism_shomotopy_group_sp_ucotensor (X : Type) (Y : spectrum)
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{n m : ℤ} (p : -m = n) : uH^n[X, Y] ≃g πₛ[m] (sp_ucotensor X Y) :=
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begin
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refine cohomology_isomorphism_shomotopy_group_sp_cotensor X₊ Y p ⬝g _,
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apply shomotopy_group_isomorphism_of_pequiv, intro k, apply ppmap_add_point
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end
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2017-02-18 21:56:38 +00:00
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/- functoriality -/
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definition cohomology_functor [constructor] {X X' : Type*} (f : X' →* X) (Y : spectrum)
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(n : ℤ) : cohomology X Y n →g cohomology X' Y n :=
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Group_trunc_pmap_homomorphism f
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2016-09-28 14:33:21 +00:00
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2018-10-03 23:39:08 +00:00
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notation `H^→` n `[`:0 f:0 `, ` Y:0 `]`:0 := cohomology_functor f Y n
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2017-02-18 21:56:38 +00:00
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definition cohomology_functor_pid (X : Type*) (Y : spectrum) (n : ℤ) (f : H^n[X, Y]) :
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cohomology_functor (pid X) Y n f = f :=
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!Group_trunc_pmap_pid
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2016-09-28 14:33:21 +00:00
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2017-02-18 21:56:38 +00:00
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definition cohomology_functor_pcompose {X X' X'' : Type*} (f : X' →* X) (g : X'' →* X')
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(Y : spectrum) (n : ℤ) (h : H^n[X, Y]) : cohomology_functor (f ∘* g) Y n h =
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cohomology_functor g Y n (cohomology_functor f Y n h) :=
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!Group_trunc_pmap_pcompose
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2017-02-02 22:14:48 +00:00
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2017-02-18 21:56:38 +00:00
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definition cohomology_functor_phomotopy {X X' : Type*} {f g : X' →* X} (p : f ~* g)
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(Y : spectrum) (n : ℤ) : cohomology_functor f Y n ~ cohomology_functor g Y n :=
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Group_trunc_pmap_phomotopy p
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2018-10-03 23:39:08 +00:00
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notation `H^~` n `[`:0 h:0 `, ` Y:0 `]`:0 := cohomology_functor_phomotopy h Y n
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2017-02-20 21:23:57 +00:00
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definition cohomology_functor_phomotopy_refl {X X' : Type*} (f : X' →* X) (Y : spectrum) (n : ℤ)
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(x : H^n[X, Y]) : cohomology_functor_phomotopy (phomotopy.refl f) Y n x = idp :=
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Group_trunc_pmap_phomotopy_refl f x
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2017-02-18 21:56:38 +00:00
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definition cohomology_functor_pconst {X X' : Type*} (Y : spectrum) (n : ℤ) (f : H^n[X, Y]) :
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cohomology_functor (pconst X' X) Y n f = 1 :=
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!Group_trunc_pmap_pconst
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2017-02-19 00:01:24 +00:00
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definition cohomology_isomorphism {X X' : Type*} (f : X' ≃* X) (Y : spectrum) (n : ℤ) :
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H^n[X, Y] ≃g H^n[X', Y] :=
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Group_trunc_pmap_isomorphism f
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2018-10-10 01:27:27 +00:00
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notation `H^≃` n `[`:0 e:0 `, ` Y:0 `]`:0 := cohomology_isomorphism e Y n
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2017-02-20 21:23:57 +00:00
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definition cohomology_isomorphism_refl (X : Type*) (Y : spectrum) (n : ℤ) (x : H^n[X,Y]) :
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H^≃n[pequiv.refl X, Y] x = x :=
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!Group_trunc_pmap_isomorphism_refl
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2017-07-07 21:32:57 +00:00
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definition cohomology_isomorphism_right (X : Type*) {Y Y' : spectrum} (e : Πn, Y n ≃* Y' n)
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(n : ℤ) : H^n[X, Y] ≃g H^n[X, Y'] :=
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cohomology_isomorphism_shomotopy_group_sp_cotensor X Y !neg_neg ⬝g
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2018-09-07 14:30:39 +00:00
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shomotopy_group_isomorphism_of_pequiv (-n) (λk, ppmap_pequiv_ppmap_right (e k)) ⬝g
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(cohomology_isomorphism_shomotopy_group_sp_cotensor X Y' !neg_neg)⁻¹ᵍ
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2017-09-16 00:39:51 +00:00
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definition unreduced_cohomology_isomorphism {X X' : Type} (f : X' ≃ X) (Y : spectrum) (n : ℤ) :
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uH^n[X, Y] ≃g uH^n[X', Y] :=
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cohomology_isomorphism (add_point_pequiv f) Y n
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2018-10-10 01:27:27 +00:00
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notation `uH^≃` n `[`:0 e:0 `, ` Y:0 `]`:0 := unreduced_cohomology_isomorphism e Y n
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2017-09-16 00:39:51 +00:00
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definition unreduced_cohomology_isomorphism_right (X : Type) {Y Y' : spectrum} (e : Πn, Y n ≃* Y' n)
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(n : ℤ) : uH^n[X, Y] ≃g uH^n[X, Y'] :=
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cohomology_isomorphism_right X₊ e n
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2017-09-22 00:14:24 +00:00
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definition unreduced_ordinary_cohomology_isomorphism {X X' : Type} (f : X' ≃ X) (G : AbGroup)
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(n : ℤ) : uoH^n[X, G] ≃g uoH^n[X', G] :=
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unreduced_cohomology_isomorphism f (EM_spectrum G) n
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2018-10-10 01:27:27 +00:00
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notation `uoH^≃` n `[`:0 e:0 `, ` Y:0 `]`:0 := unreduced_ordinary_cohomology_isomorphism e Y n
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2017-09-22 00:14:24 +00:00
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definition unreduced_ordinary_cohomology_isomorphism_right (X : Type) {G G' : AbGroup}
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(e : G ≃g G') (n : ℤ) : uoH^n[X, G] ≃g uoH^n[X, G'] :=
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unreduced_cohomology_isomorphism_right X (EM_spectrum_pequiv e) n
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2017-07-04 11:57:46 +00:00
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definition parametrized_cohomology_isomorphism_right {X : Type*} {Y Y' : X → spectrum}
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(e : Πx n, Y x n ≃* Y' x n) (n : ℤ) : pH^n[(x : X), Y x] ≃g pH^n[(x : X), Y' x] :=
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parametrized_cohomology_isomorphism_shomotopy_group_spi Y !neg_neg ⬝g
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shomotopy_group_isomorphism_of_pequiv (-n) (λk, ppi_pequiv_right (λx, e x k)) ⬝g
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2017-07-08 14:11:11 +00:00
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(parametrized_cohomology_isomorphism_shomotopy_group_spi Y' !neg_neg)⁻¹ᵍ
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2017-07-07 21:32:57 +00:00
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definition unreduced_parametrized_cohomology_isomorphism_right {X : Type} {Y Y' : X → spectrum}
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(e : Πx n, Y x n ≃* Y' x n) (n : ℤ) : upH^n[(x : X), Y x] ≃g upH^n[(x : X), Y' x] :=
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parametrized_cohomology_isomorphism_right (λx' k, add_point_over_pequiv (λx, e x k) x') n
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definition unreduced_ordinary_parametrized_cohomology_isomorphism_right {X : Type}
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{G G' : X → AbGroup} (e : Πx, G x ≃g G' x) (n : ℤ) :
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uopH^n[(x : X), G x] ≃g uopH^n[(x : X), G' x] :=
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unreduced_parametrized_cohomology_isomorphism_right (λx, EM_spectrum_pequiv (e x)) n
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definition ordinary_cohomology_isomorphism_right (X : Type*) {G G' : AbGroup} (e : G ≃g G')
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(n : ℤ) : oH^n[X, G] ≃g oH^n[X, G'] :=
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cohomology_isomorphism_right X (EM_spectrum_pequiv e) n
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2017-07-04 11:57:46 +00:00
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definition ordinary_parametrized_cohomology_isomorphism_right {X : Type*} {G G' : X → AbGroup}
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(e : Πx, G x ≃g G' x) (n : ℤ) : opH^n[(x : X), G x] ≃g opH^n[(x : X), G' x] :=
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parametrized_cohomology_isomorphism_right (λx, EM_spectrum_pequiv (e x)) n
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definition uopH_isomorphism_opH {X : Type} (G : X → AbGroup) (n : ℤ) :
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uopH^n[(x : X), G x] ≃g opH^n[(x : X₊), add_point_AbGroup G x] :=
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parametrized_cohomology_isomorphism_right
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begin
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intro x n, induction x with x,
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{ symmetry, apply EM_spectrum_trivial, },
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{ reflexivity }
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end
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n
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2017-07-02 00:14:18 +00:00
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2017-09-16 00:39:51 +00:00
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definition pH_isomorphism_H {X : Type*} (Y : spectrum) (n : ℤ) : pH^n[(x : X), Y] ≃g H^n[X, Y] :=
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by reflexivity
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definition opH_isomorphism_oH {X : Type*} (G : AbGroup) (n : ℤ) : opH^n[(x : X), G] ≃g oH^n[X, G] :=
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by reflexivity
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definition upH_isomorphism_uH {X : Type} (Y : spectrum) (n : ℤ) : upH^n[(x : X), Y] ≃g uH^n[X, Y] :=
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unreduced_parametrized_cohomology_isomorphism_shomotopy_group_supi _ !neg_neg ⬝g
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(unreduced_cohomology_isomorphism_shomotopy_group_sp_ucotensor _ _ !neg_neg)⁻¹ᵍ
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definition uopH_isomorphism_uoH {X : Type} (G : AbGroup) (n : ℤ) :
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uopH^n[(x : X), G] ≃g uoH^n[X, G] :=
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!upH_isomorphism_uH
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definition uopH_isomorphism_uoH_of_is_conn {X : Type*} (G : X → AbGroup) (n : ℤ) (H : is_conn 1 X) :
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uopH^n[(x : X), G x] ≃g uoH^n[X, G pt] :=
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begin
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refine _ ⬝g !uopH_isomorphism_uoH,
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apply unreduced_ordinary_parametrized_cohomology_isomorphism_right,
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refine is_conn.elim 0 _ _, reflexivity
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end
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2017-09-22 00:14:24 +00:00
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definition cohomology_change_int (X : Type*) (Y : spectrum) {n n' : ℤ} (p : n = n') :
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H^n[X, Y] ≃g H^n'[X, Y] :=
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isomorphism_of_eq (ap (λn, H^n[X, Y]) p)
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definition parametrized_cohomology_change_int (X : Type*) (Y : X → spectrum) {n n' : ℤ}
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(p : n = n') : pH^n[(x : X), Y x] ≃g pH^n'[(x : X), Y x] :=
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isomorphism_of_eq (ap (λn, pH^n[(x : X), Y x]) p)
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2017-02-18 21:56:38 +00:00
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/- suspension axiom -/
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2017-07-20 17:01:22 +00:00
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definition cohomology_susp_2 (Y : spectrum) (n : ℤ) :
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2017-02-18 21:56:38 +00:00
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Ω (Ω[2] (Y ((n+1)+2))) ≃* Ω[2] (Y (n+2)) :=
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begin
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apply loopn_pequiv_loopn 2,
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2017-06-02 16:15:31 +00:00
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exact loop_pequiv_loop (pequiv_of_eq (ap Y (add.right_comm n 1 2))) ⬝e* !equiv_glue⁻¹ᵉ*
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2017-02-18 21:56:38 +00:00
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end
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2017-07-20 17:01:22 +00:00
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definition cohomology_susp_1 (X : Type*) (Y : spectrum) (n : ℤ) :
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susp X →* Ω (Ω (Y (n + 1 + 2))) ≃ X →* Ω (Ω (Y (n+2))) :=
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2017-02-02 22:14:48 +00:00
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calc
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2017-07-20 17:01:22 +00:00
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susp X →* Ω[2] (Y (n + 1 + 2)) ≃ X →* Ω (Ω[2] (Y (n + 1 + 2))) : susp_adjoint_loop_unpointed
|
2018-09-07 14:30:39 +00:00
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... ≃ X →* Ω[2] (Y (n+2)) : equiv_of_pequiv (ppmap_pequiv_ppmap_right
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2017-07-20 17:01:22 +00:00
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(cohomology_susp_2 Y n))
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2017-02-18 21:56:38 +00:00
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2017-07-20 17:01:22 +00:00
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definition cohomology_susp_1_pmap_mul {X : Type*} {Y : spectrum} {n : ℤ}
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(f g : susp X →* Ω (Ω (Y (n + 1 + 2)))) : cohomology_susp_1 X Y n (pmap_mul f g) ~*
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pmap_mul (cohomology_susp_1 X Y n f) (cohomology_susp_1 X Y n g) :=
|
2017-02-18 21:56:38 +00:00
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begin
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2017-07-20 17:01:22 +00:00
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unfold [cohomology_susp_1],
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refine pwhisker_left _ !loop_susp_intro_pmap_mul ⬝* _,
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2017-02-18 21:56:38 +00:00
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apply pcompose_pmap_mul
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end
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2017-07-20 17:01:22 +00:00
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definition cohomology_susp_equiv (X : Type*) (Y : spectrum) (n : ℤ) :
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H^n+1[susp X, Y] ≃ H^n[X, Y] :=
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trunc_equiv_trunc _ (cohomology_susp_1 X Y n)
|
2017-02-18 21:56:38 +00:00
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2017-07-20 17:01:22 +00:00
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definition cohomology_susp (X : Type*) (Y : spectrum) (n : ℤ) :
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H^n+1[susp X, Y] ≃g H^n[X, Y] :=
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isomorphism_of_equiv (cohomology_susp_equiv X Y n)
|
2017-02-18 21:56:38 +00:00
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begin
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intro f₁ f₂, induction f₁ with f₁, induction f₂ with f₂,
|
2017-07-20 17:01:22 +00:00
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|
apply ap tr, apply eq_of_phomotopy, exact cohomology_susp_1_pmap_mul f₁ f₂
|
2017-02-18 21:56:38 +00:00
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|
end
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2017-07-20 17:01:22 +00:00
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definition cohomology_susp_natural {X X' : Type*} (f : X →* X') (Y : spectrum) (n : ℤ) :
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cohomology_susp X Y n ∘ cohomology_functor (susp_functor f) Y (n+1) ~
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cohomology_functor f Y n ∘ cohomology_susp X' Y n :=
|
2017-02-18 21:56:38 +00:00
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begin
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refine (trunc_functor_compose _ _ _)⁻¹ʰᵗʸ ⬝hty _ ⬝hty trunc_functor_compose _ _ _,
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|
apply trunc_functor_homotopy, intro g,
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|
apply eq_of_phomotopy, refine _ ⬝* !passoc⁻¹*, apply pwhisker_left,
|
2017-07-20 17:01:22 +00:00
|
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|
apply loop_susp_intro_natural
|
2017-02-18 21:56:38 +00:00
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|
end
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/- exactness -/
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definition cohomology_exact {X X' : Type*} (f : X →* X') (Y : spectrum) (n : ℤ) :
|
2017-03-06 06:01:36 +00:00
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is_exact_g (cohomology_functor (pcod f) Y n) (cohomology_functor f Y n) :=
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|
is_exact_trunc_functor (cofiber_exact f)
|
2017-02-18 21:56:38 +00:00
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/- additivity -/
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definition additive_hom [constructor] {I : Type} (X : I → Type*) (Y : spectrum) (n : ℤ) :
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H^n[⋁X, Y] →g Πᵍ i, H^n[X i, Y] :=
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|
Group_pi_intro (λi, cohomology_functor (pinl i) Y n)
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|
2018-10-25 01:19:26 +00:00
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|
definition additive_equiv {I : Type.{u}} (H : has_choice.{u (max v w)} 0 I) (X : I → pType.{v})
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(Y : spectrum.{w}) (n : ℤ) : H^n[⋁X, Y] ≃ Πᵍ i, H^n[X i, Y] :=
|
2017-02-18 21:56:38 +00:00
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|
trunc_fwedge_pmap_equiv H X (Ω[2] (Y (n+2)))
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|
2017-02-19 00:01:24 +00:00
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|
definition spectrum_additive {I : Type} (H : has_choice 0 I) (X : I → Type*) (Y : spectrum)
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(n : ℤ) : is_equiv (additive_hom X Y n) :=
|
2017-02-18 21:56:38 +00:00
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is_equiv_of_equiv_of_homotopy (additive_equiv H X Y n) begin intro f, induction f, reflexivity end
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|
2018-10-25 01:19:26 +00:00
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definition cohomology_fwedge {I : Type.{u}} (H : has_choice 0 I) (X : I → Type*) (Y : spectrum)
|
2018-10-03 23:39:08 +00:00
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|
(n : ℤ) : H^n[⋁X, Y] ≃g Πᵍ i, H^n[X i, Y] :=
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|
isomorphism.mk (additive_hom X Y n) (spectrum_additive H X Y n)
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|
2017-02-19 00:01:24 +00:00
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|
/- dimension axiom for ordinary cohomology -/
|
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|
|
open is_conn trunc_index
|
2018-10-03 23:39:08 +00:00
|
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|
theorem ordinary_cohomology_dimension (G : AbGroup) (n : ℤ) (H : n ≠ 0) :
|
2017-09-22 00:14:24 +00:00
|
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|
is_contr (oH^n[pbool, G]) :=
|
2017-02-19 00:01:24 +00:00
|
|
|
|
begin
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|
|
|
apply is_conn_equiv_closed 0 !pmap_pbool_equiv⁻¹ᵉ,
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|
apply is_conn_equiv_closed 0 !equiv_glue2⁻¹ᵉ,
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|
cases n with n n,
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|
|
{ cases n with n,
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|
|
{ exfalso, apply H, reflexivity },
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|
|
{ apply is_conn_of_le, apply zero_le_of_nat n, exact is_conn_EMadd1 G n, }},
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|
|
{ apply is_trunc_trunc_of_is_trunc, apply @is_contr_loop_of_is_trunc (n+1) (K G 0),
|
2018-09-11 15:06:46 +00:00
|
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|
|
apply is_trunc_of_le _ (zero_le_of_nat n) _ }
|
2017-02-19 00:01:24 +00:00
|
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|
|
end
|
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|
2018-10-03 23:39:08 +00:00
|
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|
theorem ordinary_cohomology_dimension_plift (G : AbGroup) (n : ℤ) (H : n ≠ 0) :
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|
is_contr (oH^n[plift pbool, G]) :=
|
2018-09-07 14:30:39 +00:00
|
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|
is_trunc_equiv_closed_rev -2
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|
(equiv_of_isomorphism (cohomology_isomorphism (pequiv_plift pbool) _ _))
|
2018-10-03 23:39:08 +00:00
|
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|
(ordinary_cohomology_dimension G n H)
|
2017-02-19 00:01:24 +00:00
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|
2018-10-03 23:39:08 +00:00
|
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|
definition cohomology_iterate_susp (X : Type*) (Y : spectrum) (n : ℤ) (k : ℕ) :
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|
|
H^n+k[iterate_susp k X, Y] ≃g H^n[X, Y] :=
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|
|
begin
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|
induction k with k IH,
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|
{ exact cohomology_change_int X Y !add_zero },
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|
{ exact cohomology_change_int _ _ !add.assoc⁻¹ ⬝g cohomology_susp _ _ _ ⬝g IH }
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|
|
end
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|
definition ordinary_cohomology_pbool (G : AbGroup) : oH^0[pbool, G] ≃g G :=
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|
begin
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|
refine cohomology_isomorphism_shomotopy_group_sp_cotensor _ _ !neg_neg ⬝g _,
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|
change πg[2] (pbool →** EM G 2) ≃g G,
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|
refine homotopy_group_isomorphism_of_pequiv 1 !ppmap_pbool_pequiv ⬝g ghomotopy_group_EM G 1
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|
|
end
|
2017-07-02 00:14:18 +00:00
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|
2018-10-03 23:39:08 +00:00
|
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|
|
definition ordinary_cohomology_sphere (G : AbGroup) (n : ℕ) : oH^n[sphere n, G] ≃g G :=
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|
begin
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|
refine cohomology_isomorphism_shomotopy_group_sp_cotensor _ _ !neg_neg ⬝g _,
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|
change πg[2] (sphere n →** EM_spectrum G (2 - -n)) ≃g G,
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|
refine homotopy_group_isomorphism_of_pequiv 1 _ ⬝g ghomotopy_group_EMadd1 G 1,
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|
have p : 2 - (-n) = succ (1 + n),
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|
from !sub_eq_add_neg ⬝ ap (add 2) !neg_neg ⬝ ap of_nat !succ_add,
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|
refine !sphere_pmap_pequiv ⬝e* Ω≃[n] (pequiv_ap (EM_spectrum G) p) ⬝e* loopn_EMadd1_add G n 1,
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|
|
end
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|
definition ordinary_cohomology_sphere_of_neq (G : AbGroup) {n : ℤ} {k : ℕ} (p : n ≠ k) :
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|
is_contr (oH^n[sphere k, G]) :=
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|
|
|
begin
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|
|
|
refine is_contr_equiv_closed_rev _
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|
(ordinary_cohomology_dimension G (n-k) (λh, p (eq_of_sub_eq_zero h))),
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|
|
apply equiv_of_isomorphism,
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|
exact cohomology_change_int _ _ !neg_add_cancel_right⁻¹ ⬝g
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|
cohomology_iterate_susp pbool (EM_spectrum G) (n - k) k
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|
end
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|
|
definition cohomology_punit (Y : spectrum) (n : ℤ) :
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|
is_contr (H^n[punit, Y]) :=
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|
@is_trunc_trunc_of_is_trunc _ _ _ !is_contr_punit_pmap
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|
2018-10-25 01:19:26 +00:00
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|
definition cohomology_wedge (X : pType.{u}) (X' : pType.{u'}) (Y : spectrum.{v}) (n : ℤ) :
|
2018-10-03 23:39:08 +00:00
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|
H^n[wedge X X', Y] ≃g H^n[X, Y] ×ag H^n[X', Y] :=
|
2018-10-25 01:19:26 +00:00
|
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|
H^≃n[(wedge_pequiv !pequiv_plift !pequiv_plift ⬝e*
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wedge_pequiv_fwedge (plift.{u u'} X) (plift.{u' u} X'))⁻¹ᵉ*, Y] ⬝g
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|
cohomology_fwedge (has_choice_bool _) _ Y n ⬝g
|
2018-10-03 23:39:08 +00:00
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|
Group_pi_isomorphism_Group_pi erfl begin intro b, induction b: reflexivity end ⬝g
|
2018-10-25 01:19:26 +00:00
|
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|
(product_isomorphism_Group_pi H^n[plift.{u u'} X, Y] H^n[plift.{u' u} X', Y])⁻¹ᵍ ⬝g
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|
proof H^≃n[!pequiv_plift, Y] ×≃g H^≃n[!pequiv_plift, Y] qed
|
2018-10-03 23:39:08 +00:00
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|
definition cohomology_isomorphism_of_equiv {X X' : Type*} (e : X ≃ X') (Y : spectrum) (n : ℤ) :
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|
H^n[X', Y] ≃g H^n[X, Y] :=
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|
!cohomology_susp⁻¹ᵍ ⬝g H^≃n+1[susp_pequiv_of_equiv e, Y] ⬝g !cohomology_susp
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|
2018-10-25 01:19:26 +00:00
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|
definition unreduced_cohomology_split (X : pType.{u}) (Y : spectrum.{v}) (n : ℤ) :
|
2018-10-03 23:39:08 +00:00
|
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|
|
uH^n[X, Y] ≃g H^n[X, Y] ×ag H^n[pbool, Y] :=
|
2018-10-25 01:19:26 +00:00
|
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|
|
cohomology_isomorphism_of_equiv (wedge_pbool_equiv_add_point X) Y n ⬝g
|
2018-10-03 23:39:08 +00:00
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|
|
cohomology_wedge X pbool Y n
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|
2018-10-25 01:19:26 +00:00
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|
definition unreduced_ordinary_cohomology_nonzero (X : pType.{u}) (G : AbGroup.{v}) (n : ℤ) (H : n ≠ 0) :
|
2018-10-03 23:39:08 +00:00
|
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|
|
uoH^n[X, G] ≃g oH^n[X, G] :=
|
|
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|
|
unreduced_cohomology_split X (EM_spectrum G) n ⬝g
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|
product_trivial_right _ _ (ordinary_cohomology_dimension _ _ H)
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|
definition unreduced_ordinary_cohomology_zero (X : Type*) (G : AbGroup) :
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|
uoH^0[X, G] ≃g oH^0[X, G] ×ag G :=
|
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|
unreduced_cohomology_split X (EM_spectrum G) 0 ⬝g
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|
(!isomorphism.refl ×≃g ordinary_cohomology_pbool G)
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|
2018-10-25 01:19:26 +00:00
|
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|
|
definition unreduced_ordinary_cohomology_pbool (G : AbGroup.{v}) : uoH^0[pbool, G] ≃g G ×ag G :=
|
2018-10-03 23:39:08 +00:00
|
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|
|
unreduced_ordinary_cohomology_zero pbool G ⬝g (ordinary_cohomology_pbool G ×≃g !isomorphism.refl)
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|
|
definition unreduced_ordinary_cohomology_pbool_nonzero (G : AbGroup) (n : ℤ) (H : n ≠ 0) :
|
|
|
|
|
is_contr (uoH^n[pbool, G]) :=
|
|
|
|
|
is_contr_equiv_closed_rev (equiv_of_isomorphism (unreduced_ordinary_cohomology_nonzero pbool G n H))
|
|
|
|
|
(ordinary_cohomology_dimension G n H)
|
|
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|
|
2018-11-14 00:22:07 +00:00
|
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|
|
definition unreduced_ordinary_cohomology_sphere_zero (G : AbGroup.{u}) (n : ℕ) (H : n ≠ 0) :
|
2018-10-03 23:39:08 +00:00
|
|
|
|
uoH^0[sphere n, G] ≃g G :=
|
|
|
|
|
unreduced_ordinary_cohomology_zero (sphere n) G ⬝g
|
2018-11-14 00:22:07 +00:00
|
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product_trivial_left _ _ (ordinary_cohomology_sphere_of_neq _ (λh, H (of_nat.inj h⁻¹)))
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2018-10-03 23:39:08 +00:00
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definition unreduced_ordinary_cohomology_sphere (G : AbGroup) (n : ℕ) (H : n ≠ 0) :
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uoH^n[sphere n, G] ≃g G :=
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2018-11-14 00:22:07 +00:00
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unreduced_ordinary_cohomology_nonzero (sphere n) G n (λh, H (of_nat.inj h)) ⬝g
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2018-10-03 23:39:08 +00:00
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ordinary_cohomology_sphere G n
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definition unreduced_ordinary_cohomology_sphere_of_neq (G : AbGroup) {n : ℤ} {k : ℕ} (p : n ≠ k)
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(q : n ≠ 0) : is_contr (uoH^n[sphere k, G]) :=
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is_contr_equiv_closed_rev
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(equiv_of_isomorphism (unreduced_ordinary_cohomology_nonzero (sphere k) G n q))
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(ordinary_cohomology_sphere_of_neq G p)
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2018-10-10 01:27:27 +00:00
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definition unreduced_ordinary_cohomology_sphere_of_neq_nat (G : AbGroup) {n k : ℕ} (p : n ≠ k)
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(q : n ≠ 0) : is_contr (uoH^n[sphere k, G]) :=
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unreduced_ordinary_cohomology_sphere_of_neq G (λh, p (of_nat.inj h)) (λh, q (of_nat.inj h))
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2018-11-14 00:22:07 +00:00
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definition unreduced_ordinary_cohomology_sphere_of_gt (G : AbGroup) {n k : ℕ} (p : n > k) :
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is_contr (uoH^n[sphere k, G]) :=
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unreduced_ordinary_cohomology_sphere_of_neq_nat
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G (ne_of_gt p) (ne_of_gt (lt_of_le_of_lt (zero_le k) p))
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2018-10-03 23:39:08 +00:00
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theorem is_contr_cohomology_of_is_contr_spectrum (n : ℤ) (X : Type*) (Y : spectrum)
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(H : is_contr (Y n)) : is_contr (H^n[X, Y]) :=
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2017-09-22 00:14:24 +00:00
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begin
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apply is_trunc_trunc_of_is_trunc,
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apply is_trunc_pmap,
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2018-09-07 14:30:39 +00:00
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refine is_contr_equiv_closed_rev _ H,
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2017-09-22 00:14:24 +00:00
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exact loop_pequiv_loop (loop_pequiv_loop (pequiv_ap Y (add.assoc n 1 1)⁻¹) ⬝e* (equiv_glue Y (n+1))⁻¹ᵉ*) ⬝e
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(equiv_glue Y n)⁻¹ᵉ*
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end
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theorem is_contr_ordinary_cohomology (n : ℤ) (X : Type*) (G : AbGroup) (H : is_contr G) :
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is_contr (oH^n[X, G]) :=
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begin
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apply is_contr_cohomology_of_is_contr_spectrum,
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exact is_contr_EM_spectrum _ _ H
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end
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theorem is_contr_unreduced_ordinary_cohomology (n : ℤ) (X : Type) (G : AbGroup) (H : is_contr G) :
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is_contr (uoH^n[X, G]) :=
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is_contr_ordinary_cohomology _ _ _ H
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theorem is_contr_ordinary_cohomology_of_neg {n : ℤ} (X : Type*) (G : AbGroup) (H : n < 0) :
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is_contr (oH^n[X, G]) :=
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begin
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apply is_contr_cohomology_of_is_contr_spectrum,
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cases n with n n, contradiction,
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apply is_contr_EM_spectrum_neg
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end
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2018-10-03 23:39:08 +00:00
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2017-02-18 21:56:38 +00:00
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/- cohomology theory -/
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2018-10-25 01:19:26 +00:00
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structure cohomology_theory : Type :=
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2017-02-20 21:23:57 +00:00
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(HH : ℤ → pType.{u} → AbGroup.{u})
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(Hiso : Π(n : ℤ) {X Y : Type*} (f : X ≃* Y), HH n Y ≃g HH n X)
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(Hiso_refl : Π(n : ℤ) (X : Type*) (x : HH n X), Hiso n pequiv.rfl x = x)
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(Hh : Π(n : ℤ) {X Y : Type*} (f : X →* Y), HH n Y →g HH n X)
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(Hhomotopy : Π(n : ℤ) {X Y : Type*} {f g : X →* Y} (p : f ~* g), Hh n f ~ Hh n g)
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(Hhomotopy_refl : Π(n : ℤ) {X Y : Type*} (f : X →* Y) (x : HH n Y),
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Hhomotopy n (phomotopy.refl f) x = idp)
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(Hid : Π(n : ℤ) {X : Type*} (x : HH n X), Hh n (pid X) x = x)
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(Hcompose : Π(n : ℤ) {X Y Z : Type*} (g : Y →* Z) (f : X →* Y) (z : HH n Z),
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2017-02-18 21:56:38 +00:00
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Hh n (g ∘* f) z = Hh n f (Hh n g z))
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2017-07-20 17:01:22 +00:00
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(Hsusp : Π(n : ℤ) (X : Type*), HH (succ n) (susp X) ≃g HH n X)
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2017-02-18 21:56:38 +00:00
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(Hsusp_natural : Π(n : ℤ) {X Y : Type*} (f : X →* Y),
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2017-07-20 17:01:22 +00:00
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Hsusp n X ∘ Hh (succ n) (susp_functor f) ~ Hh n f ∘ Hsusp n Y)
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2017-03-06 06:01:36 +00:00
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(Hexact : Π(n : ℤ) {X Y : Type*} (f : X →* Y), is_exact_g (Hh n (pcod f)) (Hh n f))
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2018-10-10 01:27:27 +00:00
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(Hadditive : Π(n : ℤ) {I : Type.{u}} (X : I → Type*), has_choice.{u u} 0 I →
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2017-02-20 21:23:57 +00:00
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is_equiv (Group_pi_intro (λi, Hh n (pinl i)) : HH n (⋁ X) → Πᵍ i, HH n (X i)))
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2017-02-18 21:56:38 +00:00
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2018-10-25 01:19:26 +00:00
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structure ordinary_cohomology_theory extends cohomology_theory.{u} : Type :=
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2017-02-20 21:23:57 +00:00
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(Hdimension : Π(n : ℤ), n ≠ 0 → is_contr (HH n (plift pbool)))
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attribute cohomology_theory.HH [coercion]
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postfix `^→`:90 := cohomology_theory.Hh
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open cohomology_theory
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2017-03-02 03:58:50 +00:00
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definition Hequiv (H : cohomology_theory) (n : ℤ) {X Y : Type*} (f : X ≃* Y) : H n Y ≃ H n X :=
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equiv_of_isomorphism (Hiso H n f)
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2017-07-20 17:01:22 +00:00
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definition Hsusp_neg (H : cohomology_theory) (n : ℤ) (X : Type*) : H n (susp X) ≃g H (pred n) X :=
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2017-02-20 21:23:57 +00:00
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isomorphism_of_eq (ap (λn, H n _) proof (sub_add_cancel n 1)⁻¹ qed) ⬝g cohomology_theory.Hsusp H (pred n) X
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definition Hsusp_neg_natural (H : cohomology_theory) (n : ℤ) {X Y : Type*} (f : X →* Y) :
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2017-07-20 17:01:22 +00:00
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Hsusp_neg H n X ∘ H ^→ n (susp_functor f) ~ H ^→ (pred n) f ∘ Hsusp_neg H n Y :=
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2017-02-20 21:23:57 +00:00
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sorry
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definition Hsusp_inv_natural (H : cohomology_theory) (n : ℤ) {X Y : Type*} (f : X →* Y) :
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2017-07-20 17:01:22 +00:00
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H ^→ (succ n) (susp_functor f) ∘g (Hsusp H n Y)⁻¹ᵍ ~ (Hsusp H n X)⁻¹ᵍ ∘ H ^→ n f :=
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2017-02-20 21:23:57 +00:00
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sorry
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definition Hsusp_neg_inv_natural (H : cohomology_theory) (n : ℤ) {X Y : Type*} (f : X →* Y) :
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2017-07-20 17:01:22 +00:00
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H ^→ n (susp_functor f) ∘g (Hsusp_neg H n Y)⁻¹ᵍ ~ (Hsusp_neg H n X)⁻¹ᵍ ∘ H ^→ (pred n) f :=
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2017-02-20 21:23:57 +00:00
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sorry
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2017-03-02 03:58:50 +00:00
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definition Hadditive_equiv (H : cohomology_theory) (n : ℤ) {I : Type} (X : I → Type*) (H2 : has_choice 0 I)
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: H n (⋁ X) ≃g Πᵍ i, H n (X i) :=
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isomorphism.mk _ (Hadditive H n X H2)
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2018-10-25 01:19:26 +00:00
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definition Hlift_empty (H : cohomology_theory.{u}) (n : ℤ) :
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2017-02-20 21:23:57 +00:00
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is_contr (H n (plift punit)) :=
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let P : lift empty → Type* := lift.rec empty.elim in
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let x := Hadditive H n P _ in
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begin
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note z := equiv.mk _ x,
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refine @(is_trunc_equiv_closed_rev -2 (_ ⬝e z ⬝e _)) !is_contr_unit,
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2017-03-02 03:58:50 +00:00
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refine Hequiv H n (pequiv_punit_of_is_contr _ _ ⬝e* !pequiv_plift),
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apply is_contr_fwedge_of_neg, intro y, induction y with y, exact y,
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apply equiv_unit_of_is_contr, apply is_contr_pi_of_neg, intro y, induction y with y, exact y
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2017-02-20 21:23:57 +00:00
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end
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2017-03-02 03:58:50 +00:00
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definition Hempty (H : cohomology_theory.{0}) (n : ℤ) :
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is_contr (H n punit) :=
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@(is_trunc_equiv_closed _ (Hequiv H n !pequiv_plift)) (Hlift_empty H n)
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2017-02-20 21:23:57 +00:00
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definition Hconst (H : cohomology_theory) (n : ℤ) {X Y : Type*} (y : H n Y) : H ^→ n (pconst X Y) y = 1 :=
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begin
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2017-03-02 03:58:50 +00:00
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refine Hhomotopy H n (pconst_pcompose (pconst X (plift punit)))⁻¹* y ⬝ _,
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refine Hcompose H n _ _ y ⬝ _,
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refine ap (H ^→ n _) (@eq_of_is_contr _ (Hlift_empty H n) _ 1) ⬝ _,
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apply respect_one
|
2017-02-20 21:23:57 +00:00
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end
|
2017-02-18 21:56:38 +00:00
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2017-03-02 03:58:50 +00:00
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-- definition Hwedge (H : cohomology_theory) (n : ℤ) (A B : Type*) : H n (A ∨ B) ≃g H n A ×ag H n B :=
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-- begin
|
2017-07-20 17:01:22 +00:00
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-- refine Hiso H n (wedge_pequiv_fwedge A B)⁻¹ᵉ* ⬝g _,
|
2017-03-02 03:58:50 +00:00
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-- refine Hadditive_equiv H n _ _ ⬝g _
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-- end
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2018-10-25 01:19:26 +00:00
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definition cohomology_theory_spectrum [constructor] (Y : spectrum.{u}) : cohomology_theory.{u} :=
|
2017-02-18 21:56:38 +00:00
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cohomology_theory.mk
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(λn A, H^n[A, Y])
|
2017-02-20 21:23:57 +00:00
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(λn A B f, cohomology_isomorphism f Y n)
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(λn A, cohomology_isomorphism_refl A Y n)
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2017-02-18 21:56:38 +00:00
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(λn A B f, cohomology_functor f Y n)
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2017-02-20 21:23:57 +00:00
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(λn A B f g p, cohomology_functor_phomotopy p Y n)
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(λn A B f x, cohomology_functor_phomotopy_refl f Y n x)
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2017-02-18 21:56:38 +00:00
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(λn A x, cohomology_functor_pid A Y n x)
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(λn A B C g f x, cohomology_functor_pcompose g f Y n x)
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2017-07-20 17:01:22 +00:00
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(λn A, cohomology_susp A Y n)
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(λn A B f, cohomology_susp_natural f Y n)
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2017-02-18 21:56:38 +00:00
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(λn A B f, cohomology_exact f Y n)
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2017-02-19 00:01:24 +00:00
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(λn I A H, spectrum_additive H A Y n)
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2017-06-08 20:04:58 +00:00
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definition ordinary_cohomology_theory_EM [constructor] (G : AbGroup) : ordinary_cohomology_theory :=
|
2018-10-03 23:39:08 +00:00
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⦃ordinary_cohomology_theory, cohomology_theory_spectrum (EM_spectrum G), Hdimension := ordinary_cohomology_dimension_plift G ⦄
|
2017-02-18 21:56:38 +00:00
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end cohomology
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