Difference between revisions of "Lie quadric"
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| − | One of the osculating quadrics (cf. [[Osculating quadric|Osculating quadric]]) to a surface in the geometry of an equi-affine or projective group. At a hyperbolic point | + | {{TEX|done}} |
| + | One of the osculating quadrics (cf. [[Osculating quadric|Osculating quadric]]) to a surface in the geometry of an equi-affine or projective group. At a hyperbolic point $M_0$ it is defined as follows. | ||
| − | Suppose one is given a vector field | + | Suppose one is given a vector field $v^i(t)$ along a curve $L=u^i(t)$ that is asymptotic (or at least has tangency of the second order with an asymptotic curve at $M_0$). The quadric containing three infinitely-close straight lines passing through three points of the curve $u^i(t)$ in the direction of the vectors $v^i(t)r_i(t)=c^ir_i+cN$, where $r_1,r_2,N$ is a frame in $M$ and $N$ is the [[Affine normal|affine normal]], is called the Lie quadric. Its equation has the form |
| − | + | $$g_{ij}\xi^i\xi^j+H\xi\xi-2\xi=0,$$ | |
| − | where | + | where $(\xi^1:\xi^2:\xi:1)$ together with $(c^1:c^2:c:1)$ are the homogeneous coordinates of the curves, $g_{ij}$ is the asymptotic tensor and $H$ is the affine mean curvature. |
The Lie quadric (together with the Wilczynski and Fubini quadric) belongs to a pencil of Darboux quadrics (cf. [[Darboux quadric|Darboux quadric]]). The first has the equation | The Lie quadric (together with the Wilczynski and Fubini quadric) belongs to a pencil of Darboux quadrics (cf. [[Darboux quadric|Darboux quadric]]). The first has the equation | ||
| − | + | $$g_{ij}\xi^i\xi^j+\kappa\xi\xi-2\xi=0,$$ | |
| − | and | + | and $L$ is a geodesic of the first kind for it, and the second has the equation |
| − | + | $$g_{ij}\xi^i\xi^j+\frac23(H+\kappa)\xi\xi-2\xi=0,$$ | |
| − | and | + | and $L$ has contact of the third order with it at $M_0$; here $\kappa$ is the Gaussian curvature of the tensor $g_{ij}$. |
The idea of the Lie quadric was introduced in a letter from S. Lie to F. Klein on 18 December 1878 (see [[#References|[1]]]). | The idea of the Lie quadric was introduced in a letter from S. Lie to F. Klein on 18 December 1878 (see [[#References|[1]]]). | ||
Revision as of 15:08, 27 August 2014
One of the osculating quadrics (cf. Osculating quadric) to a surface in the geometry of an equi-affine or projective group. At a hyperbolic point $M_0$ it is defined as follows.
Suppose one is given a vector field $v^i(t)$ along a curve $L=u^i(t)$ that is asymptotic (or at least has tangency of the second order with an asymptotic curve at $M_0$). The quadric containing three infinitely-close straight lines passing through three points of the curve $u^i(t)$ in the direction of the vectors $v^i(t)r_i(t)=c^ir_i+cN$, where $r_1,r_2,N$ is a frame in $M$ and $N$ is the affine normal, is called the Lie quadric. Its equation has the form
$$g_{ij}\xi^i\xi^j+H\xi\xi-2\xi=0,$$
where $(\xi^1:\xi^2:\xi:1)$ together with $(c^1:c^2:c:1)$ are the homogeneous coordinates of the curves, $g_{ij}$ is the asymptotic tensor and $H$ is the affine mean curvature.
The Lie quadric (together with the Wilczynski and Fubini quadric) belongs to a pencil of Darboux quadrics (cf. Darboux quadric). The first has the equation
$$g_{ij}\xi^i\xi^j+\kappa\xi\xi-2\xi=0,$$
and $L$ is a geodesic of the first kind for it, and the second has the equation
$$g_{ij}\xi^i\xi^j+\frac23(H+\kappa)\xi\xi-2\xi=0,$$
and $L$ has contact of the third order with it at $M_0$; here $\kappa$ is the Gaussian curvature of the tensor $g_{ij}$.
The idea of the Lie quadric was introduced in a letter from S. Lie to F. Klein on 18 December 1878 (see [1]).
References
| [1] | S. Lie, , Gesammelte Abhandlungen. Anmerkungen zum 3-ten Band , Teubner (1922) pp. 718 |
| [2] | P.A. Shirokov, A.P. Shirokov, "Affine differential geometry" , Moscow (1959) (In Russian) |
| [3] | S.P. Finikov, "Projective differential geometry" , Moscow-Leningrad (1937) (In Russian) |
Comments
References
| [a1] | W. Blaschke, "Vorlesungen über Differentialgeometrie und geometrische Grundlagen von Einsteins Relativitätstheorie. Affine Differentialgeometrie" , 2 , Springer (1923) |
| [a2] | G. Bol, "Projective Differentialgeometrie" , 2 , Vandenhoeck & Ruprecht (1954) |
How to Cite This Entry:
Lie quadric. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Lie_quadric&oldid=33170
Lie quadric. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Lie_quadric&oldid=33170
This article was adapted from an original article by M.I. Voitsekhovskii (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article