Curve name | $X_{10a}$ | |||||||||
Index | $12$ | |||||||||
Level | $8$ | |||||||||
Genus | $0$ | |||||||||
Does the subgroup contain $-I$? | No | |||||||||
Generating matrices | $ \left[ \begin{matrix} 1 & 0 \\ 2 & 1 \end{matrix}\right], \left[ \begin{matrix} 3 & 3 \\ 6 & 3 \end{matrix}\right], \left[ \begin{matrix} 3 & 0 \\ 6 & 7 \end{matrix}\right]$ | |||||||||
Images in lower levels |
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Meaning/Special name | ||||||||||
Chosen covering | $X_{10}$ | |||||||||
Curves that $X_{10a}$ minimally covers | ||||||||||
Curves that minimally cover $X_{10a}$ | ||||||||||
Curves that minimally cover $X_{10a}$ and have infinitely many rational points. | ||||||||||
Model | $\mathbb{P}^{1}$, a universal elliptic curve over an appropriate base is given by \[y^2 = x^3 + A(t)x + B(t), \text{ where}\] \[A(t) = 324t^{4} - 108t^{2}\] \[B(t) = 3888t^{5} + 432t^{3}\] | |||||||||
Info about rational points | ||||||||||
Comments on finding rational points | None | |||||||||
Elliptic curve whose $2$-adic image is the subgroup | $y^2 = x^3 + x^2 + 4x + 4$, with conductor $20$ | |||||||||
Generic density of odd order reductions | $2659/10752$ |