Spectral problems in Sobolev-type Banach spaces for strongly elliptic systems in Lipschitz domains (Q2836140)

Under consideration is the elliptic operator NEWLINE\[NEWLINE Lu=-\sum_{i,j=1}^{n}\partial_{x_{j}}\left(a_{ij}u_{x_{i}}\right)+\sum_{i=1}^{n}b_{i}u_{x_{i}}+cu,\;\;x\in G\subset {\mathbb R}^{n}, NEWLINE\]NEWLINE with the Dirichlet or Neumann boundary conditions, where \(a_{ij},b_{i},c\) are \(d\times d \) matrix functions. The corresponding quadratic form \(a(u,v)\) is assumed to be coercive. The domain \(G\) has a Lipschitz boundary. Let \(\tilde{W}_{2}^{1}(G)\) be the subspace of functions \(u\in W_{2}^{1}(G)\) satisfying the homogeneous Dirichlet boundary conditions in the case of the Dirichlet problem and \(\tilde{W}_{2}^{1}(G)=W_{2}^{1}(G)\) otherwise. The symbol \(\tilde{W}_{2}^{-1}(G)\) stands for the dual space to \(\tilde{W}_{2}^{1}(G)\). The operator \(L:\tilde{W}_{2}^{1}(G)\to \tilde{W}_{2}^{-1}(G)\) has nice spectral properties.NEWLINENEWLINEThe authors demonstrate that the same is true in some neighborhood \(Q_{\varepsilon,\delta}=\{(s,p):|s-1|<\varepsilon,\;|p-2|<\delta\}\) for the operators \(L:\tilde{W}_{p}^{s}(G)\to \tilde{W}_{p}^{s-2}(G)\). The results remain valid if we replace the space \(\tilde{W}_{p}^{s}(G)\) by the space \(\tilde{H}_{p}^{s}(G)\) of Bessel's potentials. In particular, the completeness questions of root functions, resolvent estimates, and summability of Fourier series with respect to the root functions by the Abel-Lidskii method are studied.