George Chkadua
abstract:
In the present paper, we consider a three-dimensional model of fluid-solid
acoustic interaction when an electro-magneto-elastic body occupying a bounded
region $\Omega^{+}$ is embedded in an unbounded fluid domain
$\Omega^{-}=\mathbb{R}^3 \setminus \overline{\Omega^+}$. In this case, we have a
five-dimensional electro-magneto-elastic field (the displacement vector with
three components, electric potential and magnetic potential) in the domain
$\Omega^{+}$, while we have a scalar acoustic pressure field in the unbounded
domain $\Omega^{-}$. The physical kinematic and dynamic relations are described
mathematically by appropriate boundary and transmission conditions. We consider
less restrictions on matrix differential operator of electro-magneto-elasticity
by introducing asymptotic classes, in particular, we allow the corresponding
characteristic polynomial of the matrix operator to have multiple real zeros.
Using the potential method and the theory of pseudodifferential equations based
on the Wiener--Hopf factorization method, the uniqueness and existence theorems
are proved in Sobolev-Slobodetskii spaces.
Mathematics Subject Classification: 35J47, 74F15, 31B10, 34L2540
Key words and phrases: Boundary-transmission problems, fluid-solid interaction, potential method, pseudodifferential equations, Helmholtz equation, steady state oscillations, Jones modes, Jones eigenfrequencies