This paper is a continuation of the study of spectral flow inside essential spectrum initiated in cite{AzSFIES}. Given a point $lambda$ outside the essential spectrum of a self-adjoint operator $H_0,$ the resonance set, $mathcal R(lambda),$ is an analytic variety which consists of self-adjoint relatively compact perturbations $H_0+V$ of $H_0,$ for which $lambda$ is an eigenvalue. One may ask for criteria for the vector $V$ to be tangent to the resonance set. Such criteria were given in cite{AzSFnRI}. In this paper we study similar criteria for the case of $lambda$ inside the essential spectrum of $H_0.$ For the case $lambda in sigma_{ess}(H_0)$ the resonance set is defined in terms of the well-known limiting absorption principle. Among the results of this paper is that the resonance set contains plenty of straight lines, moreover, given any regular relatively compact perturbation $V$ there exists a finite rank self-adjoint operator, $tilde V,$ such that the straight line $H_0 + mathbb R(V-tilde V)$ belongs to the resonance set. Another result of this paper is that inside the essential spectrum there exist plenty of transversal to the resonance set perturbations $V$ which have order $geq 2,$ in contrast to what happens outside the essential spectrum, cite{AzSFnRI}.
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