Abstract
Consider a family of bounded domains Ωt in the plane (or more generally any Euclidean space) that depend analytically on the parameter t, and consider the ordinary Neumann Laplacian Δt on each of them. Then we can organize all the eigenfunctions into continuous families [Formula: see text] with eigenvalues [Formula: see text] also varying continuously with t, although the relative sizes of the eigenvalues will change with t at crossings where [Formula: see text]. We call these families homotopies of eigenfunctions. We study two explicit examples. The first example has Ω0 equal to a square and Ω1 equal to a circle; in both cases the eigenfunctions are known explicitly, so our homotopies connect these two explicit families. In the second example we approximate the Sierpinski carpet starting with a square, and we continuously delete subsquares of varying sizes. (Data available in full at ).
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