nLab derived elliptic curve

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Derived elliptic curve

Derived elliptic curve

Idea

A derived elliptic curve is an object in higher geometry that is to an E-∞ ring as an ordinary elliptic curve is to an ordinary commutative ring.

The ordinary moduli stack of elliptic curves when equipped with the structure sheaf of E-∞ rings which assigns to each elliptic curve its elliptic spectrum becomes a spectral Deligne-Mumford stack which as such is what modulates derived elliptic curves (see below).

Definition

Let AA be an E-∞ ring. A derived elliptic curve over AA is derived group scheme ESpecAE \to Spec A with the property that the underlying morphism E¯Specπ 0A\bar E \to Spec \pi_0 A is an ordinary elliptic curve.

Properties

Moduli stack of derived elliptic curves

By the Goerss-Hopkins-Miller theorem the structure sheaf 𝒪\mathcal{O} of the moduli stack of elliptic curves (ordinary elliptic curves) lifts to a sheaf 𝒪 top\mathcal{O}^{top} of E-∞ rings which over a given elliptic curve is the corresponding elliptic spectrum.

By (Lurie (Survey), theorem 4.1), this yields a spectral Deligne-Mumford stack refinement ( ell,𝒪 top)(\mathcal{M}_{ell}, \mathcal{O}^{top}) which is the moduli stack of derived elliptic curves, in that there is a natural equivalence in E-∞ rings AA of the form

Hom(Spec(A),( ell,𝒪 top))E(A), Hom(Spec(A), (\mathcal{M}_{ell},\mathcal{O}^{top})) \simeq E(A) \,,

where on the left we have maps of structured (∞,1)-toposes and on the right the ∞-groupoid of derived elliptic curves over AA.

This is based on the representability theorem (Lurie (Survey), prop. 4.1, Lurie (Representability)). An ingredient in the proof is the essential uniqueness of lifts of etale morphisms from commutative rings to E E_\infty-rings.

References

Last revised on August 26, 2014 at 09:56:00. See the history of this page for a list of all contributions to it.