2024-12-2920232470-001010.1103/PhysRevD.108.0440222-s2.0-85168837760https://doi.org/10.1103/PhysRevD.108.044022https://hdl.handle.net/20.500.14288/22990Various groups recently demonstrated that the time evolution of the simplest self-interacting vector fields, those with self-interaction potentials, can break down after a finite duration in what is called loss of hyperbolicity. We establish that this is not an isolated issue, and other generalizations of the Proca theory suffer from the same problem. Specifically, we show that vector field theories with derivative self-interactions have a similar pathology. For this, we derive the effective metric that governs the dynamics, and show that it can change signature during time evolution. We also show that, generalized Proca theories may suffer from tachyonic instabilities as well, which lead to another form of unphysical behavior. © 2023 American Physical Society. Astronomy and astrophysicsPhysics, particles and fieldsJournal article2470-0029 1156870800001Q141125