Schoen-Yau conjecture

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In mathematics, the Schoen-Yau conjecture is a disproved conjecture in hyperbolic geometry.

It was inspired by a theorem of E. Heinz. One method of disproof is the use of Scherk surfaces, as used by Harold Rosenberg and Pascal Collin (2006).

[edit] Setting and statement of the conjecture

Let $\mathbb{C}$ be the complex plane considered as a Riemannian manifold with its usual (flat) Riemannian metric. Let $\mathbb{H}$ denote the hyperbolic plane, i.e. the unit disc

$\mathbb{H} := \{ (x, y) \in \mathbb{R}^{2} | x^{2} + y^{2} < 1 \}$

endowed with the hyperbolic metric

$\mathrm{d}s^2 = 4 \frac{\mathrm{d} x^{2} + \mathrm{d} y^{2}}{(1 - (x^{2} + y^{2}))^2}.$

E. Heinz proved in 1952 that there can exist no harmonic diffeomorphism

$f : \mathbb{H} \to \mathbb{C}.$

In light of this theorem, Schoen conjectured that there exists no harmonic diffeomorphism

$g : \mathbb{C} \to \mathbb{H}.$

(It is not clear how Yau's name became associated with the conjecture: in unpublished correspondence with Harold Rosenberg, both Schoen and Yau identify Schoen as having postulated the conjecture). The Schoen(-Yau) conjecture has since been disproved.

[edit] Comments

It should be noted that the emphasis is on the existence or non-existence of an harmonic diffeomorphism, and that this property is a "one-way" property. In more detail: suppose that we consider two Riemannian manifolds M and N (with their respective metrics), and write

M ˜ N

if there exists a diffeomorphism from M onto N (in the usual terminology, M and N are diffeomorphic). Write

$M \approx N$

if there exists an harmonic diffeomorphism from M onto N. It is not difficult to show that $\sim$ (being diffeomorphic) is an equivalence relation on the objects of the category of Riemannian manifolds. In particular, $\sim$ is a symmetric relation:

$M \sim N \iff N \sim M.$

It can be shown that the hyperbolic plane and (flat) complex plane are indeed diffeomorphic:

$\mathbb{H} \sim \mathbb{C},$

so the question is whether or not they are "harmonically diffeomorphic". However, as the truth of Heinz's theorem and the falsity of the Schoen-Yau conjecture demonstrate, $\approx$ is not a symmetric relation: