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On the $\mathcal L$-invariant of the adjoint of a weight one modular form

The purpose of this article is proving the equality of two natural $\mathcal L$-invariants attached to the adjoint representation of a weigth one cusp form, each defined by purely analytic, respectively algebraic means. The proof departs from Greenberg's definition of the algebraic $\mathcal L$-invariant as a universal norm of a canonical $\mathbb{Z}_p$-extension of $\mathbb{Q}_p$ associated to the representation. We relate it to a certain $2\times 2$ regulator of $p$-adic logarithms of global units by means of class field theory, which we then show to be equal to the analytic $\mathcal L$-invariant computed by Rivero and the second author.

preprint2019arXivOpen access
Marti RosetVictor RotgerVinayak Vatsal
math.NT
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Marti RosetVictor RotgerVinayak Vatsal

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