Your identity amounts to
$$\frac12(E_0(\lambda)^*+E_0(\lambda))=E_0^*(\lambda) E_0(\lambda).$$
Since ${\cal F}^*=\cal F$, this is equivalent to saying that $$\frac12(G_\lambda+\overline{G_\lambda})=|G_\lambda|^2,$$
which is true because $G_\lambda(\xi)$ equals either $0$ or $1$.

**Edit**. To explain the first equality, let us define the bounded linear operator
$$L:=E_0(\lambda)-E_0^*(\lambda) E_0(\lambda).$$
Your assumption is that $(Lf|f)=0$ for every $f$, which means that $L^*+L=0$.