Invariants
Level: | $50$ | $\SL_2$-level: | $50$ | Newform level: | $100$ | ||
Index: | $300$ | $\PSL_2$-index: | $300$ | ||||
Genus: | $14 = 1 + \frac{ 300 }{12} - \frac{ 20 }{4} - \frac{ 0 }{3} - \frac{ 14 }{2}$ | ||||||
Cusps: | $14$ (of which $5$ are rational) | Cusp widths | $10^{10}\cdot50^{4}$ | Cusp orbits | $1^{5}\cdot4\cdot5$ | ||
Elliptic points: | $20$ of order $2$ and $0$ of order $3$ | ||||||
Analytic rank: | $0$ | ||||||
$\Q$-gonality: | $4 \le \gamma \le 8$ | ||||||
$\overline{\Q}$-gonality: | $4 \le \gamma \le 8$ | ||||||
Rational cusps: | $5$ | ||||||
Rational CM points: | none |
Other labels
Cummins and Pauli (CP) label: | 50A14 |
Rouse, Sutherland, and Zureick-Brown (RSZB) label: | 50.300.14.1 |
Level structure
$\GL_2(\Z/50\Z)$-generators: | $\begin{bmatrix}17&34\\15&43\end{bmatrix}$, $\begin{bmatrix}33&49\\10&19\end{bmatrix}$ |
Contains $-I$: | yes |
Quadratic refinements: | none in database |
Cyclic 50-isogeny field degree: | $15$ |
Cyclic 50-torsion field degree: | $60$ |
Full 50-torsion field degree: | $6000$ |
Jacobian
Conductor: | $2^{20}\cdot5^{28}$ |
Simple: | no |
Squarefree: | yes |
Decomposition: | $2\cdot4\cdot8$ |
Newforms: | 25.2.d.a, 100.2.c.a, 100.2.i.a |
Models
Canonical model in $\mathbb{P}^{ 13 }$ defined by 66 equations
$ 0 $ | $=$ | $ x y - x z + y^{2} - y z + z w - d e $ |
$=$ | $x^{2} + x y - z^{2} - z w + c e$ | |
$=$ | $x w + y z + y w - z^{2} - z w + a e - d e$ | |
$=$ | $a^{2} - 2 a c - a d + b c - b d + c d$ | |
$=$ | $\cdots$ |
Rational points
This modular curve has 5 rational cusps but no known non-cuspidal rational points. The following are the coordinates of the rational cusps on this modular curve.
Canonical model |
---|
$(0:0:0:0:0:-1:1:-1:0:0:0:0:0:1)$, $(0:0:0:0:0:0:-1:0:0:0:0:0:0:1)$, $(0:0:0:0:0:0:0:0:-1:0:0:0:0:1)$, $(0:0:0:0:0:1:0:0:1:0:0:0:0:1)$, $(0:0:0:0:0:0:0:1:0:0:0:0:0:1)$ |
Maps to other modular curves
Map of degree 2 from the canonical model of this modular curve to the canonical model of the modular curve 25.150.4.b.1 :
$\displaystyle X$ | $=$ | $\displaystyle -y$ |
$\displaystyle Y$ | $=$ | $\displaystyle -z$ |
$\displaystyle Z$ | $=$ | $\displaystyle -x-y+z+w$ |
$\displaystyle W$ | $=$ | $\displaystyle x$ |
Equation of the image curve:
$0$ | $=$ | $ X^{2}-3XY+Y^{2}-XZ-YZ-Z^{2}+XW+YW-3ZW-W^{2} $ |
$=$ | $ X^{3}-2X^{2}Y-XY^{2}+Y^{3}-2X^{2}Z+XYZ+XZ^{2}-YZ^{2}-X^{2}W+XYW+Y^{2}W-2YZW-ZW^{2} $ |
Modular covers
Cover information
Click on a modular curve in the diagram to see information about it.
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This modular curve minimally covers the modular curves listed below.
Covered curve | Level | Index | Degree | Genus | Rank | Kernel decomposition |
---|---|---|---|---|---|---|
10.60.2.c.1 | $10$ | $5$ | $5$ | $2$ | $0$ | $4\cdot8$ |
25.150.4.b.1 | $25$ | $2$ | $2$ | $4$ | $0$ | $2\cdot8$ |
This modular curve is minimally covered by the modular curves in the database listed below.
Covering curve | Level | Index | Degree | Genus | Rank | Kernel decomposition |
---|---|---|---|---|---|---|
50.600.37.d.1 | $50$ | $2$ | $2$ | $37$ | $0$ | $1^{3}\cdot8\cdot12$ |
50.600.37.p.1 | $50$ | $2$ | $2$ | $37$ | $0$ | $1^{3}\cdot8\cdot12$ |
50.900.50.e.1 | $50$ | $3$ | $3$ | $50$ | $0$ | $1^{2}\cdot2\cdot4^{2}\cdot8^{3}$ |
50.1500.96.c.1 | $50$ | $5$ | $5$ | $96$ | $2$ | $2^{3}\cdot4^{5}\cdot8^{2}\cdot16\cdot24$ |
50.1500.96.c.2 | $50$ | $5$ | $5$ | $96$ | $2$ | $2^{3}\cdot4^{5}\cdot8^{2}\cdot16\cdot24$ |