Multivalued groups and Newton polyhedron
classification
🧮 math.GR
math.RA
keywords
coefficientsnewtonpolyhedronpolynomialsymmetricformulatedintegerpolynomials
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On the set of complex number $\mathbb{C}$ it is possible to define $n$-valued group for any positive integer $n$. The $n$-multiplication defines a symmetric polynomial $p_n = p_n(x, y, z)$ with integer coefficients. By the theorem on symmetric polynomials, one can present $p_n$ as polynomial in elementary symmetric polynomials $e_1$, $e_2$, $e_3$. V.~M.~Buchstaber formulated a question on description coefficients of this polynomial. Also, he formulated the next question: How to describe the Newton polyhedron of $p_n$? In the present paper we find all coefficients of $p_n$ under monomials of the form $e_1^i e_2^j$ and prove that the Newton polyhedron of $p_n$ is an right triangle.
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