Identities between operations on the ring of Witt vectors #
In this file we derive common identities between the Frobenius and Verschiebung operators.
Main declarations #
frobenius_verschiebung
: the composition of Frobenius and Verschiebung is multiplication byp
verschiebung_mul_frobenius
: the “projection formula”:V(x * F y) = V x * y
iterate_verschiebung_mul_coeff
: an identity from [Haze09] 6.2
References #
[Hazewinkel, Witt Vectors][Haze09]
[Commelin and Lewis, Formalizing the Ring of Witt Vectors][CL21]
theorem
WittVector.frobenius_verschiebung
{p : ℕ}
{R : Type u_1}
[hp : Fact (Nat.Prime p)]
[CommRing R]
(x : WittVector p R)
:
The composition of Frobenius and Verschiebung is multiplication by p
.
theorem
WittVector.verschiebung_zmod
{p : ℕ}
[hp : Fact (Nat.Prime p)]
(x : WittVector p (ZMod p))
:
Verschiebung is the same as multiplication by p
on the ring of Witt vectors of ZMod p
.
theorem
WittVector.p_nonzero
(p : ℕ)
(R : Type u_1)
[hp : Fact (Nat.Prime p)]
[CommRing R]
[Nontrivial R]
[CharP R p]
:
↑p ≠ 0
theorem
WittVector.FractionRing.p_nonzero
(p : ℕ)
(R : Type u_1)
[hp : Fact (Nat.Prime p)]
[CommRing R]
[Nontrivial R]
[CharP R p]
:
↑p ≠ 0
theorem
WittVector.verschiebung_frobenius_comm
{p : ℕ}
{R : Type u_1}
[hp : Fact (Nat.Prime p)]
[CommRing R]
[CharP R p]
:
Function.Commute ⇑WittVector.verschiebung ⇑WittVector.frobenius
Iteration lemmas #
theorem
WittVector.iterate_verschiebung_mul
{p : ℕ}
{R : Type u_1}
[hp : Fact (Nat.Prime p)]
[CommRing R]
[CharP R p]
(x y : WittVector p R)
(i j : ℕ)
:
theorem
WittVector.iterate_verschiebung_mul_coeff
{p : ℕ}
{R : Type u_1}
[hp : Fact (Nat.Prime p)]
[CommRing R]
[CharP R p]
(x y : WittVector p R)
(i j : ℕ)
:
This is a slightly specialized form of [Hazewinkel, Witt Vectors][Haze09] 6.2 equation 5.