On the concavity of a sum of elementary symmetric polynomials

Abstract

We introduce a new problem on the elementary symmetric polynomials σk, stemming from the constraint equations of some modified gravity theory. For which coefficients is a linear combination of σk 1/p-concave, with 0 ≤ k ≤ p? We establish connections between the 1/p-concavity and the real-rootedness of some polynomials built on the coefficients. We conjecture that if the restriction of the linear combination to the positive diagonal is a real-rooted polynomial, then the linear combination is 1/p-concave. Using the theory of hyperbolic polynomials, we show that this would be implied by a short algebraic statement: if the polynomials P and Q of degree n are real-rooted, then Σk=0n P(k)Q(n-k) is real-rooted as well. This is not proven yet. We conjecture more generally that the global 1/p-concavity is equivalent to the 1/p-concavity on the positive diagonal. We prove all our guessings for p=2. The way is open for further developments.