Jacobian conjecture

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In mathematics, the Jacobian conjecture is a celebrated problem on polynomials in several variables. It was first posed in 1939 by Ott-Heinrich Keller. It was later named and widely publicised by Shreeram Abhyankar, as an example of a question in the area of algebraic geometry that requires little beyond a knowledge of calculus to state.

The Jacobian conjecture is notorious for the large number of attempted proofs that turned out to contain subtle errors. As of 2014, there are no plausible claims to have proved it.

The Jacobian Determinant

Let N > 1 be a fixed integer and consider the polynomials f1, ..., fN in variables X1, ..., XN with coefficients in an algebraically closed field k (in fact, it suffices to assume k = C). Then we define a vector-valued function F: kNkN by setting:

F(c1, ..., cN) = (f1(c1, ...,cN),..., fN(c1,...,cN))

The Jacobian determinant of F, denoted by JF, is defined as the determinant of the N × N matrix consisting of the partial derivatives of fi with respect to Xj:

J_{F}=\left|{\begin{matrix}{\frac  {\partial f_{1}}{\partial X_{1}}}&\cdots &{\frac  {\partial f_{1}}{\partial X_{N}}}\\\vdots &\ddots &\vdots \\{\frac  {\partial f_{N}}{\partial X_{1}}}&\cdots &{\frac  {\partial f_{N}}{\partial X_{N}}}\end{matrix}}\right|,

then JF is itself a polynomial function of the N variables X1, …, XN.

Formulation of the Conjecture

The condition JF ≠ 0 is related to the inverse function theorem in multivariable calculus. In fact for smooth functions (and so in particular for polynomials) a local inverse function to F exists at any point where JF is non-zero. However k is algebraically closed so JF as a polynomial will be zero for some complex values of X1, …, XN unless it is a non-zero constant function. It is a relatively elementary fact that:

Proposition: If F has an inverse function G: kNkN, then JF is a non-zero constant.

The conjecture is the following converse:

Jacobian conjecture: If JF is a non-zero constant, then F has an inverse function G: kNkN, and G is regular (in the sense that its components are given by polynomial expressions).

Results

Wang (1980) proved the Jacobian conjecture for polynomials of degree 2, and Bass, Connell & Wright (1982) showed that the general case follows from the special case where the polynomials are of degree 3. Moh (1983) checked the conjecture for polynomials of degree at most 100 in 2 variables.

The Jacobian conjecture is equivalent to the Dixmier conjecture.

See also

Notes

    References

    External links

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