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The Jacobian conjecture

Published 19 Nov 2023 in math-ph and math.MP | (2311.14723v1)

Abstract: The Jacobian conjecture involves the map $y= x - V(x)$ where $y, x$ are n-dimensional vectors, $V(x)$ is a symmetric polynomial of degree $d$ for which the Jacobian hypothesis holds: $ e{Tr \ln(1- V'(x))} =1,\ \forall x$. The conjecture states that the inverse map ($x$ as a function of $y$) is also polynomial. The proof is inspired by perturbative field theory. We express the inverse map $F(y)= y+ V(F(y))$ as a perturbative expansion which is a sum of partially ordered connected trees. We use the property : $\frac{d F_{k}}{dy_{k}}= (\frac{1}{1-V'(F)}){k,k} =1+ \sum _{q\ge 1} \frac{1}{q} (Tr (V'(F)){q}){with\ q\ edges\ of\ index\ k}$ to extract inductively in the index $k$ all the sub traces in the expansion of the inverse map. We obtain $F= F(|\le n)\ \ e{- Tr \ln(1-V'(F(|\le n)))}$ By the Jacobian hypothesis $e{- Tr \ln(1-V'(F(|\le n)))} =1$ and a straightforward graphical argument gives that $degree \ in\ y \ of \ F(|\le n)\le d{2{n} -2}$

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