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The SOS Rank of Biquadratic Forms

Published 22 Jul 2025 in math.NT | (2507.16399v1)

Abstract: In 1973, Calder\'{o}n proved that an $m \times 2$ positive semidefinite (psd) biquadratic form can always be expressed as the sum of squares (sos) of ${3m(m+1) \over 2}$ quadratic forms. Very recently, by applying Hilbert's theorem, we proved that a $2 \times 2$ psd biquadratic form can always be expressed as the sum of squares of three quadratic forms. This improved Calder\'{o}n's result for $m=2$, and left the sos rank problem of $m \times 2$ biquadratic forms for $m \ge 3$ to further exploration. In this paper, we show that an $m \times n$ psd biquadratic form with a nontrivial zero {can} be expressed as an $(m-1) \times (n-1) \times 1$ degenerated tripartite quartic form. Furthermore, we show that an $m \times 2$ positive definite (pd) biquadratic form can be expressed as the sum of a square of a quadratic form, and an $(m-1) \times 1 \times 1$ degenerated tripartite quartic form. Thus, the sos rank problem of $m \times 2$ psd biquadratic forms is reduced to the sos rank problem of an $(m-1) \times 1 \times 1$ degenerated tripartite quartic forms. We then show that an $(m-1) \times 1 \times 1$ degenerated tripartite quartic form has at least two nontrivial zeros, and the discriminent of a $2 \times 1 \times 1$ degenerated tripartite quartic form can be expressed as the sum of the square of three cubic forms.

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