drivesymmetry

Drivesymmetry is a concept used to describe a kind of invariance in dynamical systems subjected to an external driving term. Informally, a system has drivesymmetry when the driving input can be transformed by a symmetry operation in a way that leaves the overall dynamics unchanged, up to the corresponding transformation of the state. More formally, let x be the state in a space X and let the evolution be dx/dt = F(x, u, t) with a time-dependent drive u(t). If there exists a symmetry group G with a representation g·x = X_g(x) and a corresponding transformed drive u_g(t) such that F(X_g(x), u_g(t), t) = X_g(F(x, u(t), t)) for all g in G, the system is said to possess drivesymmetry with respect to G.

Common instances include periodic drives that are invariant under phase shifts (time-translation symmetry modulo the driving

Applications appear in physics and engineering, including driven oscillators, Floquet systems, nonlinear optics, and control theory,

Limitations include breaking of symmetry by damping, imperfections, or nonuniformities in the drive, which can lift