Forthcoming seminars
Seminar calendar
List of seminars
Archive by years
Register a seminar

Forthcoming seminars

Colloquium of Steklov Mathematical Institute of Russian Academy of Sciences
May 22, 2014 16:00, Moscow, Steklov Mathematical Institute of RAS, Conference Hall (8 Gubkina)

Hypersurfaces with vanishing Hessian

Francesco Russo
Video records:
Flash Video 647.8 Mb
Flash Video 3,881.7 Mb
MP4 647.8 Mb

Number of views:
This page:811
Video files:257
Youtube Video:

Francesco Russo
Photo Gallery

Видео не загружается в Ваш браузер:
  1. Проверьте с Вашим администратором, что из Вашей сети разрешены исходящие соединения на порт 8080
  2. Сообщите администратору портала о данной ошибке

Abstract: A homogeneous polynomial in $N+1$ variables has a vanishing Hessian if the determinant of its Hessian matrix is zero. Thus these are exactly the homogeneous polynomial solutions of the classical Monge–Ampere differential equation. A solution is called trivial if it depends, modulo a linear change of coordinates, on at most $N$ variables.
O. Hesse published two papers claiming that there exist only trivial homogeneous polynomial solutions; equivalently, that a projective hypersurface is a cone in $P^N$ if the Hessian vanishes. The question is quite subtle because, as it was firstly pointed out by P. Gordan and M. Noether in 1876, Hesse's claim is true for $N$ at most $3$, and is false for $N$ larger than $3$. The cases $N=1,2$ are easily handled but beginning from $N=3$ the problem is related to non-trivial characterizations of cones among hypersurfaces having a zero Gaussian curvature at every regular point.
The aim of the talk is to present from scratch the circle of ideas originated by geometrical and algebraic interpretations of Hesse's claim in different areas of mathematics. Then we shall present: the proof of Hesse's claim for $N$ at most $3$ according to Gordan and Noether; some series of examples of hypersurfaces with vanishing Hessian, not cones, for every $N$ starting from $4$; the classification in low dimension and/or low degree.

SHARE: FaceBook Twitter Livejournal
Contact us:
 Terms of Use  Registration  Logotypes © Steklov Mathematical Institute RAS, 2021