The Fractional Lamé-Navier Operator: Appearances, Properties and Applications (2204.12029v3)

Abstract: We introduce and analyze an explicit formulation of fractional powers of the Lam\'e-Navier system of partial differential operators. We show that this fractional Lam\'e-Navier operator is a nonlocal integro-differential operator that appears in several widely-used continuum mechanics models. We demonstrate that the fractional Lam\'e-Navier operator can be obtained using compositions of nonlocal gradient operators. Additionally, the effective form of the fractional Lam\'e-Navier operator is the same as the operator obtained as a particular choice of parameters in state-based peridynamics. We further show that the Dirichlet-to-Neumann map associated to the local classical Lam\'e-Navier system posed in a half-space coincides with the square root power of the Lam\'e-Navier operator for a particular choice of elastic coefficients. We establish basic analysis results for the fractional Lam\'e-Navier operator, including the calculus of positive and negative powers, and explore its interaction with the H\"older and Bessel classes of functions. We also derive the fractional Lam\'e-Navier as the Dirichlet-to-Neumann map of a local degenerate elliptic system of equations in the upper half-space. We use an explicit formula for a Poisson kernel for the extension system to establish the well-posedness in weighted Sobolev spaces. As an application, we derive the equivalence of two fractional seminorms using a purely local argument in the extension system, and then use this equivalence to obtain well-posedness for a variational Dirichlet problem associated to the fractional Lam\'e-Navier operator.