arXiv:2511.15777v1 Announce Type: new
Abstract: Classical Eulerian vortex criteria, such as the $Q$-, $Delta$-, $lambda_2$-, $lambda_{ci}$-, and Okubo–Weiss criterion, depend on frame-dependent quantities and therefore fail to provide objective, observer-independent diagnostics in unsteady frames. In this work, we address this longstanding limitation by introducing an objective variant of the $Q$-criterion, derived from a spatio-temporal variational principle that minimizes a modified time-derivative of the strain-rate tensor. Although several objective variants of the $Q$-criterion have been proposed before, none of these has successfully reconciled Eulerian diagnostics with the underlying Lagrangian motion of fluid particles, even in simple analytical solutions of the Navier–Stokes equations. Here, we present the first vortex criterion that consistently resolves all known pathological examples leading to false positives and false negatives in Eulerian vortex criteria applied to unsteady flows. The results establish a unified and objective framework for Eulerian vortex detection, opening new directions for the analysis and control of unsteady flow phenomena.