Unstable invariant manifolds for a nonautonomous differential equation with nonautonomous unbounded delay (Q379006)

The paper deals with the differential equation NEWLINE\[NEWLINE x^\prime (t)=Ax(t)+f \big(\theta_t\omega , x_t \big),\quad t\in [0, \infty )NEWLINE\]NEWLINE with the initial condition \(x(t)=\xi (t)\), \(t \in [- h(\omega ), 0 ]\), where \(A\) is the generator of a \(C_0\)-semigroup, \(f\) is a nonlinear operator, and \(h(\omega )\) is an unbounded delay, for \(\omega\) being an element of a set \(\Omega \). As usual \(x_t := x ( t + \cdot )\). The family \( \{\theta_t : \Omega \rightarrow \Omega ; \, t \in \mathbb{R} \} \) is a flow, i.e., \(\theta_0 = \mathrm{Id}_\Omega\) and \(\theta_{t+s}= \theta_t\theta_s \) for all \(t, s \in \mathbb{R}\). The authors establish the existence of an unstable invariant manifold to the differential equation above.