On Higher Order Weierstrass Points on $X_0(N)
Let $\Gamma$ be the Fuchsian group of the first kind. For an even integer $m\ge 4$, we describe the space $H^{m/2}\left(\mathfrak R_\Gamma\right)$ of $m/2$--holomorphic differentials in terms of a subspace $S_m^H(\Gamma)$ of the space of (holomorphic) cuspidal modular forms $S_m(\Gamma)$. This gener...
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| Zusammenfassung: | Let $\Gamma$ be the Fuchsian group of the first kind. For an even integer
$m\ge 4$, we describe the space $H^{m/2}\left(\mathfrak R_\Gamma\right)$ of
$m/2$--holomorphic differentials in terms of a subspace $S_m^H(\Gamma)$ of the
space of (holomorphic) cuspidal modular forms $S_m(\Gamma)$. This generalizes
classical isomorphism $S_2(\Gamma)\simeq H^{1}\left(\mathfrak R_\Gamma\right)$.
We study the properties of $S_m^H(\Gamma)$. As an application, we describe the
algorithm implemented in SAGE for testing if a cusp at $\infty$ for
non-hyperelliptic $X_0(N)$ is a $\frac{m}{2}$-Weierstrass point. |
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| DOI: | 10.48550/arxiv.2202.09540 |