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46 lines
1.7 KiB
Text
46 lines
1.7 KiB
Text
import CommAlg.krull
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import Mathlib.RingTheory.Ideal.Operations
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import Mathlib.RingTheory.FiniteType
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import Mathlib.Order.Height
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import Mathlib.RingTheory.PrincipalIdealDomain
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import Mathlib.RingTheory.DedekindDomain.Basic
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import Mathlib.RingTheory.Ideal.Quotient
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import Mathlib.RingTheory.Ideal.MinimalPrime
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import Mathlib.RingTheory.Localization.AtPrime
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import Mathlib.AlgebraicGeometry.PrimeSpectrum.Basic
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import Mathlib.Order.ConditionallyCompleteLattice.Basic
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namespace Ideal
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lemma polynomial_over_field_dim_one {K : Type} [Nontrivial K] [Field K] : krullDim (Polynomial K) = 1 := by
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-- unfold krullDim
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rw [le_antisymm_iff]
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constructor
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·
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sorry
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· suffices : ∃I : PrimeSpectrum (Polynomial K), 1 ≤ (height I : WithBot ℕ∞)
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· obtain ⟨I, h⟩ := this
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have : (height I : WithBot ℕ∞) ≤ ⨆ (I : PrimeSpectrum (Polynomial K)), ↑(height I) := by
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apply @le_iSup (WithBot ℕ∞) _ _ _ I
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exact le_trans h this
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have primeX : Prime Polynomial.X := @Polynomial.prime_X K _ _
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let X := @Polynomial.X K _
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have : IsPrime (span {X}) := by
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refine Iff.mpr (span_singleton_prime ?hp) primeX
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exact Polynomial.X_ne_zero
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let P := PrimeSpectrum.mk (span {X}) this
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unfold height
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use P
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have : ⊥ ∈ {J | J < P} := by
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simp only [Set.mem_setOf_eq]
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rw [bot_lt_iff_ne_bot]
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suffices : P.asIdeal ≠ ⊥
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· by_contra x
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rw [PrimeSpectrum.ext_iff] at x
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contradiction
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by_contra x
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simp only [span_singleton_eq_bot] at x
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have := @Polynomial.X_ne_zero K _ _
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contradiction
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have : {J | J < P}.Nonempty := Set.nonempty_of_mem this
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rwa [←Set.one_le_chainHeight_iff, ←WithBot.one_le_coe] at this
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