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j-invariant
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(Definition)
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Let $E$ be an elliptic curve over $\mathbb{Q}$ with Weierstrass equation: $$y^2+a_1xy+a_3y=x^3+a_2x^2+a_4x+a_6$$ with coefficients $a_i\in\mathbb{Q}$ Let: \begin{eqnarray} \nonumber b_2 &=& a_1^2+4a_2,\\ \nonumber b_4 &=& 2a_4+a_1a_3,\\ \nonumber b_6 &=& a_3^2+4a_6,\\ \nonumber b_8 &=& a_1^2a_6+4a_2a_6-a_1a_3a_4+a_3^2a_2-a_4^2,\\ \nonumber c_4 &=& b_2^2-24b_4,\\ \nonumber c_6 &=& -b_2^3+36b_2b_4-216b_6 \end{eqnarray}
Definition 1
- The discriminant of $E$ is defined to be $$\Delta=-b_2^2b_8-8b_4^3-27b_6^2+9b_2b_4b_6$$
- The j-invariant of $E$ is $$j=\frac{c_4^3}{\Delta}$$
- The invariant differential is $$ \omega=\frac{dx}{2y+a_1x+a_3}=\frac{dy}{3x^2+2a_2x+a_4-a_1y}$$
Example:
If $E$ has a Weierstrass equation in the simplified form $y^2=x^3+Ax+B$ then $$ \Delta=-16(4A^3+27B^2),\quad j=-\frac{1728(4A)^3}{\Delta}$$
Note: The discriminant $\Delta$ coincides in this case with the usual notion of discriminant of the polynomial $x^3+Ax+B$
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"j-invariant" is owned by alozano.
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See Also: elliptic curve, bad reduction, modular discriminant, discriminant, the arithmetic of elliptic curves
| Other names: |
discriminant,  -invariant, j invariant |
| Also defines: |
j-invariant, discriminant of an elliptic curve, invariant differential |
| Keywords: |
j-invariant, discriminant, differential, elliptic curve |
This object's parent.
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Cross-references: coefficients, Weierstrass equation, elliptic curve
There are 8 references to this entry.
This is version 6 of j-invariant, born on 2003-08-07, modified 2005-03-01.
Object id is 4565, canonical name is JInvariant.
Accessed 14211 times total.
Classification:
| AMS MSC: | 14H52 (Algebraic geometry :: Curves :: Elliptic curves) |
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Pending Errata and Addenda
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