Abstract
This paper considers and extends spectral and scattering theory to dissipative symmetric systems that may have zero speeds and in particular to strictly dissipative boundary conditions for Maxwell's equations. Consider symmetric systems ∂t−∑j=1nAj∂xj in Rn, n≥3, n odd, in a smooth connected exterior domain Ω:=Rn∖K¯. Assume that the rank of A(ξ)=∑j=1nAjξj is constant for ξ≠0. For maximally dissipative boundary conditions on Ω:=Rn∖K¯ with bounded open domain K the solution of the boundary problem in R+×Ω is described by a contraction semigroup V(t)=etGb, t≥0. Assuming coercive conditions for Gb and its adjoint Gb⁎ on the complement of their kernels, we prove that the spectrum of Gb in the open half plane Rez<0 is formed only by isolated eigenvalues with finite multiplicities.
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