TY - BOOK A1 - Weyers, Stephan T1 - Lq-solutions to the Cosserat spectrum in bounded and exterior domains N2 - In the present paper we consider the existence of non-trivial classical and weak Lq-solutions of the Cosserat spectrum $$ Delta U u = a abla Div U u, qquad U u Big|_{partial G}=0 $$ where G is a bounded or an exterior domain with sufficiently smooth boundary. This problem firstly was investigated by Eugene and Francois Cosserat. It is a special case of the Lame equation and describes the displacement of a homogeneous isotropic linear static elastic body without exterior forces. We can prove that a = 1 is an eigenvalue of infinite multiplicity and a = 2 is an accumulation point of eigenvalues of finite multiplicity. E. and F. Cosserat (1900) studied the classical Cosserat spectrum for certain types of domains like a ball, a spherical shell or an ellipsoid. General results are due to Mikhlin (1973), who investigated the Cosserat spectrum for n=3 and q=2, and Kozhevnikov (1993), who treated bounded domains in the case n=3 and q=2. Kozhevnikovs proof is based on the theory of pseudodifferential operators. Faierman, Fries, Mennicken and Möller (2000) gave a direct proof for bounded domains, n>=2 and q=2. Michel Crouzeix 1997 gave a simple proof for bounded domains, n=2,3 and q=2. In this paper we use the idea of Crouzeix to prove the results for bounded and exterior domains, n>=2 and 1=2 und q=2. Michel Crouzeix gelang 1997 ein sehr einfacher Beweis für beschränkte Gebiete, n=2,3 und q=2. In dieser Arbeit wird die Beweisidee von Crouzeix aufgegriffen, und die obigen Resultate werden für beschränkte Gebiete und Außengebiete, n>=2 und 1