Elliptic Curves
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chromatic homotopy theory
The stack \(M_{\ell}\) admits a compactification \({ \mathcal{M}_{\mathrm{ell}} }\) whose \(R\) points are generalized elliptic curves. The space of integral modular forms of weight \(k\) is defined to be the space of sections \begin{align*} H ^ { 0 } \left( \mkern 1.5mu\overline{\mkern1.5mu{ \mathcal{M}_{\mathrm{ell}} }\mkern1.5mu}\mkern 1.5mu; \omega{ {}^{ \scriptscriptstyle\otimes_{k}^{n} } } \right) \end{align*} Motivated by the definition of integral modular forms and the descent spectral sequence in the case of \(U = M_\ell\) , the spectrum $\mathrm{TMF} $ (see TMF) is defined to be its global sections: \begin{align*} \mathrm{TMF} \coloneqq{\mathcal{O}}^ { {\mathsf{Top}}} \left( \mkern 1.5mu\overline{\mkern1.5mu{ \mathcal{M}_{\mathrm{ell}} }\mkern1.5mu}\mkern 1.5mu \right) \end{align*}

Interesting Topological Spaces in Algebraic Geometry
Interesting Space: Projects/2022 Advanced Qual Projects/Elliptic Curves/Elliptic Curves

Formal Groups Reading Notes
How do formal groups arise from Projects/2022 Advanced Qual Projects/Elliptic Curves/Elliptic Curves?

CalabiYau
\(\dim X = 1\): Elliptic Curves.

20210428_Weil_Conjectures_4
Resolved for Projects/2022 Advanced Qual Projects/Elliptic Curves/Elliptic Curves (TaylorWiles c/o the TaniyamaShimura conjecture), implies \(L_X\) is an \(L\) function coming from a modular form.