Small isospectral and nonisometric orbifolds of dimension 2 and 3

Abstract: ABSTRACT. Revisiting a construction due to Vignéras, we exhibit small pairs of orbifolds and manifolds of dimension 2 and 3 arising from arithmetic Fuchsian and Kleinian groups that are Laplace isospectral (in fact, representation equivalent) but nonisometric.Introduction. In 1966, Kac [54] famously posed the question: "Can one hear the shape of a drum?" In other words, if you know the frequencies at which a drum vibrates, can you determine its shape? Since this question was asked, hundreds of articles have b… Show more

“…It is then natural to ask: what is the smallest volume that an isospectral pair can have? Previous work of Linowitz and Voight [12] using number theoretic methods found a volume ≈ 51.02 example. The pair we give above has the smallest volume found so far, ≈ 25.418347, and we believe this would be difficult to improve significantly due to certain constraints.…”

Strongly isospectral hyperbolic 3-manifolds with nonisomorphic rational cohomology rings

“…It is then natural to ask: what is the smallest volume that an isospectral pair can have? Previous work of Linowitz and Voight [12] using number theoretic methods found a volume ≈ 51.02 example. The pair we give above has the smallest volume found so far, ≈ 25.418347, and we believe this would be difficult to improve significantly due to certain constraints.…”

Strongly isospectral hyperbolic 3-manifolds with nonisomorphic rational cohomology rings

“…Also, BTB's play a significant role in the study of the selectivity problem, i.e., understanding when a commutative order embeds into all, or just into some, of the orders in a particular genus [12], [15], [16]. This problem arises naturally from questions regarding spectral properties of hyperbolic varieties [32], [17], and has been intensively studied in the quaternionic case, where the relevant buildings are trees.…”

On genera containing non-split Eichler orders over function fields

“…Sunada's technique was the first general technique for constructing isospectral manifolds and, due to its simplicity and power, it remains the most widely used method. For completeness, we note that an arithmetic method of constructing isospectral but nonisometric Riemann surfaces introduced by M.-F. Vignéras [38] and recently studied systematically by B. Linowitz and J. Voight [26] provides many examples of isospectral Riemann surfaces that do not arise from Sunada's construction. Outside of the setting of Riemann surfaces, other methods, including a general technique involving torus actions, have produced many interesting examples.…”

Sunada transplantation and isogeny of intermediate Jacobians of compact Kähler manifolds