2017-07-17 14:54:05 +00:00
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import ..algebra.spectral_sequence ..spectrum.trunc .basic
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2017-06-29 14:48:43 +00:00
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2017-07-01 19:02:31 +00:00
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open eq spectrum trunc is_trunc pointed int EM algebra left_module fiber lift equiv is_equiv
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2017-07-04 11:57:46 +00:00
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cohomology group sigma unit is_conn
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2017-07-02 00:14:18 +00:00
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set_option pp.binder_types true
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2017-06-29 14:48:43 +00:00
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/- Eilenberg MacLane spaces are the fibers of the Postnikov system of a type -/
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2017-07-02 00:14:18 +00:00
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namespace pointed
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2017-06-29 14:48:43 +00:00
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definition postnikov_map [constructor] (A : Type*) (n : ℕ₋₂) : ptrunc (n.+1) A →* ptrunc n A :=
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ptrunc.elim (n.+1) (ptr n A)
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2017-06-29 14:48:43 +00:00
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definition ptrunc_functor_postnikov_map {A B : Type*} (n : ℕ₋₂) (f : A →* B) :
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ptrunc_functor n f ∘* postnikov_map A n ~* ptrunc.elim (n.+1) (!ptr ∘* f) :=
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begin
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fapply phomotopy.mk,
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{ intro x, induction x with a, reflexivity },
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{ reflexivity }
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end
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section
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2017-07-04 11:57:46 +00:00
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open nat group
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2017-06-29 14:48:43 +00:00
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definition pfiber_postnikov_map (A : Type*) (n : ℕ) :
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pfiber (postnikov_map A n) ≃* EM_type A (n+1) :=
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begin
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symmetry, apply EM_type_pequiv,
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{ symmetry, refine _ ⬝g ghomotopy_group_ptrunc (n+1) A,
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exact chain_complex.LES_isomorphism_of_trivial_cod _ _
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(trivial_homotopy_group_of_is_trunc _ (self_lt_succ n))
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(trivial_homotopy_group_of_is_trunc _ (le_succ _)) },
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{ apply is_conn_fun_trunc_elim, apply is_conn_fun_tr },
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{ have is_trunc (n+1) (ptrunc n.+1 A), from !is_trunc_trunc,
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have is_trunc ((n+1).+1) (ptrunc n A), by do 2 apply is_trunc_succ, apply is_trunc_trunc,
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apply is_trunc_pfiber }
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end
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end
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definition postnikov_map_natural {A B : Type*} (f : A →* B) (n : ℕ₋₂) :
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psquare (postnikov_map A n) (postnikov_map B n)
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(ptrunc_functor (n.+1) f) (ptrunc_functor n f) :=
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!ptrunc_functor_postnikov_map ⬝* !ptrunc_elim_ptrunc_functor⁻¹*
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2017-07-01 19:02:31 +00:00
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definition is_equiv_postnikov_map (A : Type*) {n k : ℕ₋₂} [HA : is_trunc k A] (H : k ≤ n) :
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is_equiv (postnikov_map A n) :=
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begin
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apply is_equiv_of_equiv_of_homotopy
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(ptrunc_pequiv_ptrunc_of_is_trunc (trunc_index.le.step H) H HA),
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intro x, induction x, reflexivity
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end
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2017-06-29 14:48:43 +00:00
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definition encode_ap1_gen_tr (n : ℕ₋₂) {A : Type*} {a a' : A} (p : a = a') :
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trunc.encode (ap1_gen tr idp idp p) = tr p :> trunc n (a = a') :=
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by induction p; reflexivity
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definition ap1_postnikov_map (A : Type*) (n : ℕ₋₂) :
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psquare (Ω→ (postnikov_map A (n.+1))) (postnikov_map (Ω A) n)
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(loop_ptrunc_pequiv (n.+1) A) (loop_ptrunc_pequiv n A) :=
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have psquare (postnikov_map (Ω A) n) (Ω→ (postnikov_map A (n.+1)))
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(loop_ptrunc_pequiv (n.+1) A)⁻¹ᵉ* (loop_ptrunc_pequiv n A)⁻¹ᵉ*,
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begin
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refine _ ⬝* !ap1_ptrunc_elim⁻¹*, apply pinv_left_phomotopy_of_phomotopy,
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fapply phomotopy.mk,
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{ intro x, induction x with p, exact !encode_ap1_gen_tr⁻¹ },
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{ reflexivity }
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end,
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this⁻¹ᵛ*
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2017-07-02 00:14:18 +00:00
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end pointed open pointed
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namespace spectrum
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2017-07-05 19:40:15 +00:00
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2017-07-01 19:02:31 +00:00
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definition postnikov_smap [constructor] (X : spectrum) (k : ℤ) :
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strunc k X →ₛ strunc (k - 1) X :=
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strunc_elim (str (k - 1) X) (is_strunc_strunc_pred X k)
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2017-07-05 19:40:15 +00:00
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definition postnikov_map_pred (A : Type*) (n : ℕ₋₂) :
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ptrunc n A →* ptrunc (trunc_index.pred n) A :=
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begin cases n with n, exact !pid, exact postnikov_map A n end
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2017-07-05 19:40:15 +00:00
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definition pfiber_postnikov_map_pred (A : Type*) (n : ℕ) :
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pfiber (postnikov_map_pred A n) ≃* EM_type A n :=
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begin
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cases n with n,
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apply pfiber_pequiv_of_is_contr, apply is_contr_ptrunc_minus_one,
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exact pfiber_postnikov_map A n
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end
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definition pfiber_postnikov_map_pred' (A : spectrum) (n k l : ℤ) (p : n + k = l) :
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pfiber (postnikov_map_pred (A k) (maxm2 l)) ≃* EM_spectrum (πₛ[n] A) l :=
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begin
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cases l with l l,
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{ refine pfiber_postnikov_map_pred (A k) l ⬝e* _,
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exact EM_type_pequiv_EM A p },
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{ apply pequiv_of_is_contr, apply is_contr_pfiber_pid,
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apply is_contr_EM_spectrum_neg }
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end
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2017-07-01 19:02:31 +00:00
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2017-07-05 19:40:15 +00:00
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definition psquare_postnikov_map_ptrunc_elim (A : Type*) {n k l : ℕ₋₂} (H : is_trunc n (ptrunc k A))
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(p : n = l.+1) (q : k = l) :
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psquare (ptrunc.elim n (ptr k A)) (postnikov_map A l)
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(ptrunc_change_index p A) (ptrunc_change_index q A) :=
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begin
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induction q, cases p,
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refine _ ⬝pv* pvrfl,
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apply ptrunc_elim_phomotopy2,
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reflexivity
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end
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definition postnikov_smap_postnikov_map (A : spectrum) (n k l : ℤ) (p : n + k = l) :
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psquare (postnikov_smap A n k) (postnikov_map_pred (A k) (maxm2 l))
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(ptrunc_maxm2_change_int p (A k)) (ptrunc_maxm2_pred (A k) (ap pred p⁻¹ ⬝ add.right_comm n k (- 1))) :=
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begin
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cases l with l,
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2017-07-21 14:55:27 +00:00
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{ cases l with l, apply phomotopy_of_is_contr_cod_pmap, apply is_contr_ptrunc_minus_one,
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refine psquare_postnikov_map_ptrunc_elim (A k) _ _ _ ⬝hp* _,
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exact ap maxm2 (add.right_comm n (- 1) k ⬝ ap pred p ⬝ !pred_succ),
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apply ptrunc_maxm2_pred_nat },
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{ apply phomotopy_of_is_contr_cod_pmap, apply is_trunc_trunc }
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end
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2017-07-07 21:32:57 +00:00
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definition sfiber_postnikov_smap_pequiv (A : spectrum) (n : ℤ) (k : ℤ) :
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sfiber (postnikov_smap A n) k ≃* ssuspn n (EM_spectrum (πₛ[n] A)) k :=
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proof
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pfiber_pequiv_of_square _ _ (postnikov_smap_postnikov_map A n k (n + k) idp) ⬝e*
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pfiber_postnikov_map_pred' A n k _ idp ⬝e*
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pequiv_ap (EM_spectrum (πₛ[n] A)) (add.comm n k)
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qed
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2017-07-01 19:02:31 +00:00
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section atiyah_hirzebruch
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parameters {X : Type*} (Y : X → spectrum) (s₀ : ℤ) (H : Πx, is_strunc s₀ (Y x))
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definition atiyah_hirzebruch_exact_couple : exact_couple rℤ Z2 :=
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@exact_couple_sequence (λs, spi X (λx, strunc s (Y x)))
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(λs, spi_compose_left (λx, postnikov_smap (Y x) s))
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2017-07-07 21:32:57 +00:00
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include H
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definition atiyah_hirzebruch_ub ⦃s n : ℤ⦄ (Hs : s ≤ n - 1) :
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is_contr (πₛ[n] (spi X (λx, strunc s (Y x)))) :=
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begin
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2017-07-07 21:32:57 +00:00
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refine trivial_shomotopy_group_of_is_strunc _ _ (lt_of_le_sub_one Hs),
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apply is_strunc_spi, intro x, exact is_strunc_strunc _ _
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end
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definition atiyah_hirzebruch_lb ⦃s n : ℤ⦄ (Hs : s ≥ s₀ + 1) :
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is_equiv (spi_compose_left (λx, postnikov_smap (Y x) s) n) :=
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begin
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refine is_equiv_of_equiv_of_homotopy
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2017-07-07 21:32:57 +00:00
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(ppi_pequiv_right (λx, ptrunc_pequiv_ptrunc_of_is_trunc _ _ (H x n))) _,
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{ intro x, apply maxm2_monotone, apply add_le_add_right, exact le.trans !le_add_one Hs },
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{ intro x, apply maxm2_monotone, apply add_le_add_right, exact le_sub_one_of_lt Hs },
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2017-07-21 14:55:27 +00:00
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intro f, apply eq_of_phomotopy,
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apply pmap_compose_ppi_phomotopy_left, intro x,
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fapply phomotopy.mk,
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{ refine @trunc.rec _ _ _ _ _,
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{ intro x, apply is_trunc_eq,
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assert H3 : maxm2 (s - 1 + n) ≤ (maxm2 (s + n)).+1,
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{ refine trunc_index.le_succ (maxm2_monotone (le.trans (le_of_eq !add.right_comm)
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!sub_one_le)) },
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exact @is_trunc_of_le _ _ _ H3 !is_trunc_trunc },
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intro a, reflexivity },
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reflexivity
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end
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2017-07-01 19:02:31 +00:00
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definition is_bounded_atiyah_hirzebruch : is_bounded atiyah_hirzebruch_exact_couple :=
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is_bounded_sequence _ s₀ (λn, n - 1) atiyah_hirzebruch_lb atiyah_hirzebruch_ub
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definition atiyah_hirzebruch_convergence' :
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(λn s, πₛ[n] (sfiber (spi_compose_left (λx, postnikov_smap (Y x) s)))) ⟹ᵍ
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(λn, πₛ[n] (spi X (λx, strunc s₀ (Y x)))) :=
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converges_to_sequence _ s₀ (λn, n - 1) atiyah_hirzebruch_lb atiyah_hirzebruch_ub
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definition atiyah_hirzebruch_convergence :
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(λn s, opH^-(n-s)[(x : X), πₛ[s] (Y x)]) ⟹ᵍ (λn, pH^-n[(x : X), Y x]) :=
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converges_to_g_isomorphism atiyah_hirzebruch_convergence'
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begin
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2017-07-02 00:14:18 +00:00
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intro n s,
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refine _ ⬝g (parametrized_cohomology_isomorphism_shomotopy_group_spi _ idp)⁻¹ᵍ,
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refine _ ⬝g !shomotopy_group_ssuspn,
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apply shomotopy_group_isomorphism_of_pequiv n, intro k,
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refine !pfiber_pppi_compose_left ⬝e* _,
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exact ppi_pequiv_right (λx, sfiber_postnikov_smap_pequiv (Y x) s k)
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end
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begin
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2017-07-02 00:14:18 +00:00
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intro n,
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refine _ ⬝g (parametrized_cohomology_isomorphism_shomotopy_group_spi _ idp)⁻¹ᵍ,
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apply shomotopy_group_isomorphism_of_pequiv, intro k,
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exact ppi_pequiv_right (λx, ptrunc_pequiv (maxm2 (s₀ + k)) (Y x k)),
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end
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2017-09-22 00:14:24 +00:00
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-- set_option pp.metavar_args true
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-- definition atiyah_reindexed : (λp q, opH^p[(x : X), πₛ[q] (Y x)]) ⟹ᵍ (λn, pH^n[(x : X), Y x])
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-- :=
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-- converges_to_reindex atiyah_hirzebruch_convergence (λp q, -(p - q)) (λp q, q) (λp q, by reflexivity)
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-- (λn, -n) (λn, by reflexivity)
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2017-07-01 19:02:31 +00:00
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end atiyah_hirzebruch
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2017-07-03 12:37:02 +00:00
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section unreduced_atiyah_hirzebruch
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definition unreduced_atiyah_hirzebruch_convergence {X : Type} (Y : X → spectrum) (s₀ : ℤ)
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(H : Πx, is_strunc s₀ (Y x)) :
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2017-07-07 21:32:57 +00:00
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(λn s, uopH^-(n-s)[(x : X), πₛ[s] (Y x)]) ⟹ᵍ (λn, upH^-n[(x : X), Y x]) :=
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2017-07-03 12:37:02 +00:00
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converges_to_g_isomorphism
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(@atiyah_hirzebruch_convergence X₊ (add_point_spectrum Y) s₀ (is_strunc_add_point_spectrum H))
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begin
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2017-07-04 11:57:46 +00:00
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intro n s, refine _ ⬝g !uopH_isomorphism_opH⁻¹ᵍ,
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apply ordinary_parametrized_cohomology_isomorphism_right,
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intro x,
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apply shomotopy_group_add_point_spectrum
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2017-07-03 12:37:02 +00:00
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end
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begin
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2017-07-04 11:57:46 +00:00
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intro n, reflexivity
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end
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end unreduced_atiyah_hirzebruch
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2017-07-02 00:14:18 +00:00
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section serre
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2017-09-16 00:39:51 +00:00
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universe variable u
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2017-09-21 02:13:57 +00:00
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variables {X B : Type.{u}} (b₀ : B) (F : B → Type) (f : X → B)
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2017-09-16 00:39:51 +00:00
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(Y : spectrum) (s₀ : ℤ) (H : is_strunc s₀ Y)
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2017-07-02 00:14:18 +00:00
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include H
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2017-07-07 21:32:57 +00:00
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definition serre_convergence :
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2017-09-21 02:13:57 +00:00
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(λn s, uopH^-(n-s)[(b : B), uH^-s[F b, Y]]) ⟹ᵍ (λn, uH^-n[Σ(b : B), F b, Y]) :=
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2017-07-07 21:32:57 +00:00
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proof
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converges_to_g_isomorphism
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(unreduced_atiyah_hirzebruch_convergence
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(λx, sp_ucotensor (F x) Y) s₀
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(λx, is_strunc_sp_ucotensor s₀ (F x) H))
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begin
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intro n s,
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refine unreduced_ordinary_parametrized_cohomology_isomorphism_right _ (-(n-s)),
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intro x,
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exact (unreduced_cohomology_isomorphism_shomotopy_group_sp_ucotensor _ _ idp)⁻¹ᵍ
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end
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begin
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intro n,
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refine unreduced_parametrized_cohomology_isomorphism_shomotopy_group_supi _ idp ⬝g _,
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refine _ ⬝g (unreduced_cohomology_isomorphism_shomotopy_group_sp_ucotensor _ _ idp)⁻¹ᵍ,
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apply shomotopy_group_isomorphism_of_pequiv, intro k,
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exact (sigma_pumap F (Y k))⁻¹ᵉ*
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end
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2017-09-16 00:39:51 +00:00
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qed
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2017-09-21 02:13:57 +00:00
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definition serre_convergence_map :
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(λn s, uopH^-(n-s)[(b : B), uH^-s[fiber f b, Y]]) ⟹ᵍ (λn, uH^-n[X, Y]) :=
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2017-09-21 02:00:58 +00:00
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proof
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converges_to_g_isomorphism
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2017-09-21 02:13:57 +00:00
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(serre_convergence (fiber f) Y s₀ H)
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2017-09-21 02:00:58 +00:00
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begin intro n s, reflexivity end
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begin intro n, apply unreduced_cohomology_isomorphism, exact !sigma_fiber_equiv⁻¹ᵉ end
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qed
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2017-09-21 02:13:57 +00:00
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definition serre_convergence_of_is_conn (H2 : is_conn 1 B) :
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(λn s, uoH^-(n-s)[B, uH^-s[F b₀, Y]]) ⟹ᵍ (λn, uH^-n[Σ(b : B), F b, Y]) :=
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2017-09-16 00:39:51 +00:00
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proof
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converges_to_g_isomorphism
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(serre_convergence F Y s₀ H)
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2017-09-21 02:13:57 +00:00
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begin intro n s, exact @uopH_isomorphism_uoH_of_is_conn (pointed.MK B b₀) _ _ H2 end
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2017-09-16 00:39:51 +00:00
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begin intro n, reflexivity end
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qed
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2017-09-21 02:13:57 +00:00
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definition serre_convergence_map_of_is_conn (H2 : is_conn 1 B) :
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(λn s, uoH^-(n-s)[B, uH^-s[fiber f b₀, Y]]) ⟹ᵍ (λn, uH^-n[X, Y]) :=
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2017-09-16 00:39:51 +00:00
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proof
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converges_to_g_isomorphism
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2017-09-21 02:13:57 +00:00
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(serre_convergence_of_is_conn b₀ (fiber f) Y s₀ H H2)
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2017-09-16 00:39:51 +00:00
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begin intro n s, reflexivity end
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begin intro n, apply unreduced_cohomology_isomorphism, exact !sigma_fiber_equiv⁻¹ᵉ end
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qed
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2017-07-17 14:39:49 +00:00
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2017-07-02 00:14:18 +00:00
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end serre
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2017-07-17 14:39:49 +00:00
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2017-07-02 00:14:18 +00:00
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end spectrum
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