Abelian varieties attached to newforms¶
- class sage.modular.abvar.abvar_newform.ModularAbelianVariety_newform(f, internal_name=False)¶
Bases:
sage.modular.abvar.abvar.ModularAbelianVariety_modsym_abstract
A modular abelian variety attached to a specific newform.
- endomorphism_ring()¶
Return the endomorphism ring of this newform abelian variety.
EXAMPLES:
sage: A = AbelianVariety('23a') sage: E = A.endomorphism_ring(); E Endomorphism ring of Newform abelian subvariety 23a of dimension 2 of J0(23)
We display the matrices of these two basis matrices:
sage: E.0.matrix() [1 0 0 0] [0 1 0 0] [0 0 1 0] [0 0 0 1] sage: E.1.matrix() [ 0 1 -1 0] [ 0 1 -1 1] [-1 2 -2 1] [-1 1 0 -1]
The result is cached:
sage: E is A.endomorphism_ring() True
- factor_number()¶
Return factor number.
OUTPUT:
int
EXAMPLES:
sage: A = AbelianVariety('43b') sage: A.factor_number() 1
- label()¶
Return canonical label that defines this newform modular abelian variety.
OUTPUT:
string
EXAMPLES:
sage: A = AbelianVariety('43b') sage: A.label() '43b'
- newform(names=None)¶
Return the newform that this modular abelian variety is attached to.
EXAMPLES:
sage: f = Newform('37a') sage: A = f.abelian_variety() sage: A.newform() q - 2*q^2 - 3*q^3 + 2*q^4 - 2*q^5 + O(q^6) sage: A.newform() is f True
If the a variable name has not been specified, we must specify one:
sage: A = AbelianVariety('67b') sage: A.newform() Traceback (most recent call last): ... TypeError: You must specify the name of the generator. sage: A.newform('alpha') q + alpha*q^2 + (-alpha - 3)*q^3 + (-3*alpha - 3)*q^4 - 3*q^5 + O(q^6)
If the eigenform is actually over \(\QQ\) then we don’t have to specify the name:
sage: A = AbelianVariety('67a') sage: A.newform() q + 2*q^2 - 2*q^3 + 2*q^4 + 2*q^5 + O(q^6)