The classification of homogeneous surfaces in \(\mathbb{C} P^2\) (Q2735683)

Denote by \(\mathbb{C} P^n\) the complex projective space equipped with the Fubini Study metric. A surface \(M\) in \(\mathbb{C} P^n\), i.e. a submanifold of real dimension 2, is locally homogeneous if for all \(p,q\in M\) there exists a transformation in \(U(n+1)\) mapping \(p\) to \(q\) and an open neighborhood of \(p\) in \(M\) onto an open neighborhood of \(q\) in \(M\). The author proves that each locally homogeneous surface in \(\mathbb{C} P^2\) is \(U(3)\)-equivalent to an open part of a line \(\mathbb{C} P^1\subset \mathbb{C} P^2\), or of the Veronese surface in \(\mathbb{C} P^2\), or of the real projective plane \(\mathbb{R} P^2\subset \mathbb{C} P^2\), or of the standard flat torus in \(\mathbb{C} P^2\). The author also proves that for any immersion from a compact oriented surface into \(\mathbb{C} P^2\) there exists at least one point at which the Kähler angle is 0, \(\pi/2\) or \(\pi\).NEWLINENEWLINEFor the entire collection see [Zbl 0954.00038].