We study the time evolution of entanglement entropy and entanglement spectrum
in a finite-size system which crosses a quantum phase transition at different
speeds. We focus on the Ising model with a time-dependent magnetic field, which
is linearly tuned on a time scale τ . The time evolution of the
entanglement entropy displays different regimes depending on the value of
τ, showing also oscillations which depend on the instantaneous energy
spectrum. The entanglement spectrum is characterized by a rich dynamics where
multiple crossings take place with a gap-dependent frequency. Moreover, we
investigate the Kibble-Zurek scaling of entanglement entropy and Schmidt gap.Comment: Accepted for publication in Phys. Rev.