科学研究
报告题目:

On generalized Holmgren’s principle to the Lamé operator with applications to inverse elastic problems

报告人:

刁怀安 副教授(东北师范大学)

报告时间:

报告地点:

腾讯会议 ID:580 618 915 会议密码:1030

报告摘要:

Consider the Lamé operator L(u) := μ u + (λ + μ)∇(∇·u) that arises in the theory of linear elasticity. This paper studies the geometric properties of the (generalized) Lamé eigen-function u, namely−L(u) =κu. We introduce the so-called homogeneous line segments of u in the domain, on which u, its traction or their combination via an impedance parameter is vanishing. We give a comprehensive study on characterizing the presence of one or two such line segments and its implication to the uniqueness of u. The results can be regarded as generalizing the classical Holmgren’s uniqueness principle for the Lamé operator in two aspects. We establish the results by analyzing the development of analytic microlocal singularities of u with the presence of the aforesaid line segments. Finally, we apply the results to the inverse elastic problems in establishing two novel unique identifiability results. It is shown that a generalized impedance obstacle as well as its boundary impedance can be determined by using at most four far-field patterns. Unique determination by a minimal number of far-field patterns is a longstanding problem in inverse elastic scattering theory.