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SageMath
E = EllipticCurve("e1")
E.isogeny_class()
Elliptic curves in class 1980.e
sage: E.isogeny_class().curves
LMFDB label | Cremona label | Weierstrass coefficients | j-invariant | Discriminant | Torsion structure | Modular degree | Faltings height | Optimality |
---|---|---|---|---|---|---|---|---|
1980.e1 | 1980c2 | \([0, 0, 0, -687, -6874]\) | \(192143824/1815\) | \(338722560\) | \([2]\) | \(768\) | \(0.45748\) | |
1980.e2 | 1980c1 | \([0, 0, 0, -12, -259]\) | \(-16384/2475\) | \(-28868400\) | \([2]\) | \(384\) | \(0.11090\) | \(\Gamma_0(N)\)-optimal |
Rank
sage: E.rank()
The elliptic curves in class 1980.e have rank \(0\).
Complex multiplication
The elliptic curves in class 1980.e do not have complex multiplication.Modular form 1980.2.a.e
sage: E.q_eigenform(10)
Isogeny matrix
sage: E.isogeny_class().matrix()
The \(i,j\) entry is the smallest degree of a cyclic isogeny between the \(i\)-th and \(j\)-th curve in the isogeny class, in the LMFDB numbering.
\(\left(\begin{array}{rr} 1 & 2 \\ 2 & 1 \end{array}\right)\)
Isogeny graph
sage: E.isogeny_graph().plot(edge_labels=True)
The vertices are labelled with LMFDB labels.