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arxiv: 1108.4078 · v2 · pith:KX6LJLUTnew · submitted 2011-08-20 · 🧮 math.CA

Upper bounds on the magnitude of solutions of certain linear systems with integer coefficients

classification 🧮 math.CA
keywords coefficientsintegerlinearnontrivialsolutionsystemabsoluteassume
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In this paper we consider a linear homogeneous system of $m$ equations in $n$ unknowns with integer coefficients over the reals. Assume that the sum of the absolute values of the coefficients of each equation does not exceed $k+1$ for some positive integer $k$. We show that if the system has a nontrivial solution then there exists a nontrivial solution $\x=(x_1,...,x_n)\trans$ such that $\frac{|x_j|}{|x_i|}\le k^{n-1}$ for each $i,j$ satisfying $x_ix_j\ne 0$. This inequality is sharp. We also prove a conjecture of A. Tyszka related to our results.

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