Semialgebraic and Continuous Solution of Linear Equations with Semialgebraic Coefficients

Abstract

Starting from the results of Charles Fefferman and Janos Koll\'ar in Continuous Solutions of Linear Equations [1], we adopt a new approach based on Fefferman's techniques of Glaeser refinement to show a more general result than the one proved by Koll\'ar by using techniques from algebraic geometry. Considering a system of linear equations with semialgebraic (not only polynomial as in [1]) coefficients on Rn, we get a necessary and sufficient condition for the existence of a continuous and semialgebraic solution on Rn. This is different from what Fefferman and Luli obtained in Semialgebraic Sections Over the Plane since they stated their result for solutions of regularity Cm on the plane R2. More in depth, we prove that a continuous and semialgebraic solution on Rn exists if and only if there is a continuous solution i.e., if the Glaeser-stable bundle associated to the system has no empty fiber.