Properties

Label 11347.b.11347.1
Conductor $11347$
Discriminant $11347$
Mordell-Weil group \(\Z \oplus \Z\)
Sato-Tate group $\mathrm{USp}(4)$
\(\End(J_{\overline{\Q}}) \otimes \R\) \(\R\)
\(\End(J_{\overline{\Q}}) \otimes \Q\) \(\Q\)
\(\End(J) \otimes \Q\) \(\Q\)
\(\overline{\Q}\)-simple yes
\(\mathrm{GL}_2\)-type no

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Minimal equation

Minimal equation

Simplified equation

$y^2 + (x^3 + 1)y = x^5 + 3x^4 + 3x^3 - x$ (homogenize, simplify)
$y^2 + (x^3 + z^3)y = x^5z + 3x^4z^2 + 3x^3z^3 - xz^5$ (dehomogenize, simplify)
$y^2 = x^6 + 4x^5 + 12x^4 + 14x^3 - 4x + 1$ (homogenize, minimize)

sage: R.<x> = PolynomialRing(QQ); C = HyperellipticCurve(R([0, -1, 0, 3, 3, 1]), R([1, 0, 0, 1]));
 
magma: R<x> := PolynomialRing(Rationals()); C := HyperellipticCurve(R![0, -1, 0, 3, 3, 1], R![1, 0, 0, 1]);
 
sage: X = HyperellipticCurve(R([1, -4, 0, 14, 12, 4, 1]))
 
magma: X,pi:= SimplifiedModel(C);
 

Invariants

Conductor: \( N \)  \(=\)  \(11347\) \(=\) \( 7 \cdot 1621 \)
magma: Conductor(LSeries(C)); Factorization($1);
 
Discriminant: \( \Delta \)  \(=\)  \(11347\) \(=\) \( 7 \cdot 1621 \)
magma: Discriminant(C); Factorization(Integers()!$1);
 

Igusa-Clebsch invariants

Igusa invariants

G2 invariants

\( I_2 \)  \(=\) \(148\) \(=\)  \( 2^{2} \cdot 37 \)
\( I_4 \)  \(=\) \(14185\) \(=\)  \( 5 \cdot 2837 \)
\( I_6 \)  \(=\) \(19285\) \(=\)  \( 5 \cdot 7 \cdot 19 \cdot 29 \)
\( I_{10} \)  \(=\) \(1452416\) \(=\)  \( 2^{7} \cdot 7 \cdot 1621 \)
\( J_2 \)  \(=\) \(37\) \(=\)  \( 37 \)
\( J_4 \)  \(=\) \(-534\) \(=\)  \( - 2 \cdot 3 \cdot 89 \)
\( J_6 \)  \(=\) \(5924\) \(=\)  \( 2^{2} \cdot 1481 \)
\( J_8 \)  \(=\) \(-16492\) \(=\)  \( - 2^{2} \cdot 7 \cdot 19 \cdot 31 \)
\( J_{10} \)  \(=\) \(11347\) \(=\)  \( 7 \cdot 1621 \)
\( g_1 \)  \(=\) \(69343957/11347\)
\( g_2 \)  \(=\) \(-27048702/11347\)
\( g_3 \)  \(=\) \(8109956/11347\)

  (Igusa-Clebsch invariants, (Igusa invariants, Igusa invariants) G2 invariants)

sage: C.igusa_clebsch_invariants(); [factor(a) for a in _]
 
magma: IgusaClebschInvariants(C); IgusaInvariants(C); G2Invariants(C);
 

Automorphism group

\(\mathrm{Aut}(X)\)\(\simeq\) $C_2$
magma: AutomorphismGroup(C); IdentifyGroup($1);
 
\(\mathrm{Aut}(X_{\overline{\Q}})\)\(\simeq\) $C_2$
magma: AutomorphismGroup(ChangeRing(C,AlgebraicClosure(Rationals()))); IdentifyGroup($1);
 

Rational points

Known points
\((1 : 0 : 0)\) \((1 : -1 : 0)\) \((0 : 0 : 1)\) \((-1 : 0 : 1)\) \((0 : -1 : 1)\) \((-2 : 1 : 1)\)
\((-1 : 2 : 2)\) \((-2 : 6 : 1)\) \((1 : -6 : 3)\) \((-1 : -9 : 2)\) \((1 : -22 : 3)\)
Known points
\((1 : 0 : 0)\) \((1 : -1 : 0)\) \((0 : 0 : 1)\) \((-1 : 0 : 1)\) \((0 : -1 : 1)\) \((-2 : 1 : 1)\)
\((-1 : 2 : 2)\) \((-2 : 6 : 1)\) \((1 : -6 : 3)\) \((-1 : -9 : 2)\) \((1 : -22 : 3)\)
Known points
\((1 : -1 : 0)\) \((1 : 1 : 0)\) \((-1 : 0 : 1)\) \((0 : -1 : 1)\) \((0 : 1 : 1)\) \((-2 : -5 : 1)\)
\((-2 : 5 : 1)\) \((-1 : -11 : 2)\) \((-1 : 11 : 2)\) \((1 : -16 : 3)\) \((1 : 16 : 3)\)

magma: [C![-2,1,1],C![-2,6,1],C![-1,-9,2],C![-1,0,1],C![-1,2,2],C![0,-1,1],C![0,0,1],C![1,-22,3],C![1,-6,3],C![1,-1,0],C![1,0,0]]; // minimal model
 
magma: [C![-2,-5,1],C![-2,5,1],C![-1,-11,2],C![-1,0,1],C![-1,11,2],C![0,-1,1],C![0,1,1],C![1,-16,3],C![1,16,3],C![1,-1,0],C![1,1,0]]; // simplified model
 

Number of rational Weierstrass points: \(1\)

magma: #Roots(HyperellipticPolynomials(SimplifiedModel(C)));
 

This curve is locally solvable everywhere.

magma: f,h:=HyperellipticPolynomials(C); g:=4*f+h^2; HasPointsEverywhereLocally(g,2) and (#Roots(ChangeRing(g,RealField())) gt 0 or LeadingCoefficient(g) gt 0);
 

Mordell-Weil group of the Jacobian

Group structure: \(\Z \oplus \Z\)

magma: MordellWeilGroupGenus2(Jacobian(C));
 

Generator $D_0$ Height Order
\((-1 : 0 : 1) + (0 : -1 : 1) - (1 : -1 : 0) - (1 : 0 : 0)\) \(x (x + z)\) \(=\) \(0,\) \(y\) \(=\) \(-xz^2 - z^3\) \(0.127031\) \(\infty\)
\((-1 : 0 : 1) - (1 : -1 : 0)\) \(z (x + z)\) \(=\) \(0,\) \(y\) \(=\) \(0\) \(0.161170\) \(\infty\)
Generator $D_0$ Height Order
\((-1 : 0 : 1) + (0 : -1 : 1) - (1 : -1 : 0) - (1 : 0 : 0)\) \(x (x + z)\) \(=\) \(0,\) \(y\) \(=\) \(-xz^2 - z^3\) \(0.127031\) \(\infty\)
\((-1 : 0 : 1) - (1 : -1 : 0)\) \(z (x + z)\) \(=\) \(0,\) \(y\) \(=\) \(0\) \(0.161170\) \(\infty\)
Generator $D_0$ Height Order
\((-1 : 0 : 1) + (0 : -1 : 1) - (1 : -1 : 0) - (1 : 1 : 0)\) \(x (x + z)\) \(=\) \(0,\) \(y\) \(=\) \(x^3 - 2xz^2 - z^3\) \(0.127031\) \(\infty\)
\((-1 : 0 : 1) - (1 : -1 : 0)\) \(z (x + z)\) \(=\) \(0,\) \(y\) \(=\) \(x^3 + z^3\) \(0.161170\) \(\infty\)

2-torsion field: 5.1.181552.1

BSD invariants

Hasse-Weil conjecture: unverified
Analytic rank: \(2\)
Mordell-Weil rank: \(2\)
2-Selmer rank:\(2\)
Regulator: \( 0.017999 \)
Real period: \( 24.94170 \)
Tamagawa product: \( 1 \)
Torsion order:\( 1 \)
Leading coefficient: \( 0.448939 \)
Analytic order of Ш: \( 1 \)   (rounded)
Order of Ш:square

Local invariants

Prime ord(\(N\)) ord(\(\Delta\)) Tamagawa L-factor Cluster picture
\(7\) \(1\) \(1\) \(1\) \(( 1 - T )( 1 + 4 T + 7 T^{2} )\)
\(1621\) \(1\) \(1\) \(1\) \(( 1 - T )( 1 + 14 T + 1621 T^{2} )\)

Galois representations

The mod-$\ell$ Galois representation has maximal image \(\GSp(4,\F_\ell)\) for all primes \( \ell \) except those listed.

Prime \(\ell\) mod-\(\ell\) image Is torsion prime?
\(2\) 2.6.1 no

Sato-Tate group

\(\mathrm{ST}\)\(\simeq\) $\mathrm{USp}(4)$
\(\mathrm{ST}^0\)\(\simeq\) \(\mathrm{USp}(4)\)

Decomposition of the Jacobian

Simple over \(\overline{\Q}\)

magma: HeuristicDecompositionFactors(C);
 

Endomorphisms of the Jacobian

Not of \(\GL_2\)-type over \(\Q\)

Endomorphism ring over \(\Q\):

\(\End (J_{})\)\(\simeq\)\(\Z\)
\(\End (J_{}) \otimes \Q \)\(\simeq\)\(\Q\)
\(\End (J_{}) \otimes \R\)\(\simeq\) \(\R\)

All \(\overline{\Q}\)-endomorphisms of the Jacobian are defined over \(\Q\).

magma: //Please install CHIMP (https://github.com/edgarcosta/CHIMP) if you want to run this code
 

magma: HeuristicIsGL2(C); HeuristicEndomorphismDescription(C); HeuristicEndomorphismFieldOfDefinition(C);
 

magma: HeuristicIsGL2(C : Geometric := true); HeuristicEndomorphismDescription(C : Geometric := true); HeuristicEndomorphismLatticeDescription(C);