Twists of curves
In mathematical field of algebraic geometry, an elliptic curve E over a field K has an associated quadratic twist, that is another elliptic curve which is isomorphic to E over an algebraic closure of K. In particular, an isomorphism between elliptic curves is an isogeny of degree 1, that is an invertible isogeny. Some curves have higher order twists such as cubic and quartic twists. The curve and its twists have the same j-invariant.
Quadratic twist
First assume K is a field of characteristic different from 2. Let E be an elliptic curve over K of the form:
Given and , the quadratic twist of is the curve , defined by the equation:
or equivalently
The two elliptic curves and are not isomorphic over , but over the field extension .
Now assume K is of characteristic 2. Let E be an elliptic curve over K of the form:
Given such that is an irreducible polynomial over K, the quadratic twist of E is the curve Ed, defined by the equation:
The two elliptic curves and are not isomorphic over , but over the field extension .
Quadratic twist over finite fields
If is a finite field with elements, then for all there exist a such that the point belongs to either or . In fact, there are always exactly two such unless the point belongs to both curves (which can happen if the characteristic is not ).
As a consequence,
- or equivalently
where is the trace of the Frobenius endomorphism of the curve.
Quartic twist
It is possible to "twist" elliptic curves with j-invariant equal to 1728 by quartic characters; twisting a curve E by a quartic twist, one obtains precisely four curves: one is isomorphic to E, one is its quadratic twist, and only the other two are really new. Also in this case, twisted curves are isomorphic over the field extension given by the twist degree.
Cubic twist
Analogously to the quartic twist case, an elliptic curve over with j-invariant equal to zero can be twisted by cubic characters. The curves obtained are isomorphic to the starting curve over the field extension given by the twist degree.
Examples
References
- P. Stevenhagen (2008). Elliptic Curves (PDF). Universiteit Leiden.
- F. Gouvea, B.Mazur (1991). The square-free sieve and the rank of elliptic curves (PDF). Journal of American Mathematical Society, Vol 4, Num 1.
- C. L. Stewart and J. Top (1995). On Ranks of Twists of Elliptic Curves and Power-Free Values of Binary Forms. Journal of the American Mathematical Society, Vol. 8, No. 4 (Oct., 1995), pp. 943–973. JSTOR 2152834.