Difference between revisions of "Fubini model"
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| − | A Fubini model can also be constructed for a three-dimensional hyperbolic space | + | {{TEX|auto}} |
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| + | A model of the manifold of lines in a three-dimensional elliptic space $ S _ {3} $ | ||
| + | on a pair of two-dimensional elliptic planes $ S _ {2} $. | ||
| + | Pairs of mutually-polar lines in $ S _ {3} $ | ||
| + | are represented in a one-to-one manner by pairs of diametrically-opposite points of two spheres of unit radius in the Euclidean space $ \mathbf R ^ {3} $. | ||
| + | When one identifies diametrically-opposite points, one obtains a one-to-one representation of pairs of polar lines in $ S _ {3} $ | ||
| + | by points of two elliptic planes $ S _ {2} $. | ||
| + | The manifold of pairs of polar lines is homeomorphic to the topological product of these two planes $ S _ {2} $. | ||
| + | A motion of $ S _ {3} $ | ||
| + | is represented in the Fubini model by independent motions of the two planes $ S _ {2} $: | ||
| + | Every connected group of motions of $ S _ {3} $ | ||
| + | is isomorphic to the direct product of two groups of motions of $ S _ {2} $; | ||
| + | the group of motions of $ S _ {3} $ | ||
| + | is isomorphic to the direct product of the two groups of motions of the pair of planes $ S _ {2} $. | ||
| + | |||
| + | A Fubini model can also be constructed for a three-dimensional hyperbolic space $ {} ^ {2} S _ {3} $. | ||
| + | In this case one uses the [[Plücker interpretation|Plücker interpretation]] of the projective space $ P _ {3} $ | ||
| + | in $ {} ^ {3} S _ {5} $. | ||
| + | The group of motions of $ {} ^ {2} S _ {3} $ | ||
| + | is isomorphic to the direct product of the two groups of motions of $ {} ^ {1} S _ {2} $; | ||
| + | it is represented in the Plücker model by the subgroup of the group of motions of $ {} ^ {3} S _ {5} $ | ||
| + | consisting of the motions that map two mutually-polar hyperbolic $ 2 $- | ||
| + | planes into themselves. The lines of intersection of these planes with the absolute of $ {} ^ {3} S _ {5} $ | ||
| + | form a family of straight line generators of a ruled quadric. The manifold of pairs of polar elliptic lines in $ {} ^ {2} S _ {3} $ | ||
| + | is homeomorphic to the topological product of proper domains of the two planes $ {} ^ {1} S _ {2} $, | ||
| + | that is, to the topological product of two discs, and the manifold of pairs of polar hyperbolic lines is homeomorphic to the product of ideal domains of the two planes $ {} ^ {1} S _ {2} $, | ||
| + | that is, the topological product of two Möbius strips. | ||
The model was proposed by G. Fubini [[#References|[1]]]. | The model was proposed by G. Fubini [[#References|[1]]]. | ||
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====References==== | ====References==== | ||
<table><TR><TD valign="top">[1]</TD> <TD valign="top"> G. Fubini, ''Ann. Scuola Norm. Sup. Pisa'' , '''9''' (1904) pp. 1–74</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> B.A. Rozenfel'd, "Non-Euclidean spaces" , Moscow (1969) (In Russian)</TD></TR></table> | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> G. Fubini, ''Ann. Scuola Norm. Sup. Pisa'' , '''9''' (1904) pp. 1–74</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> B.A. Rozenfel'd, "Non-Euclidean spaces" , Moscow (1969) (In Russian)</TD></TR></table> | ||
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====Comments==== | ====Comments==== | ||
| − | The constructions of Fubini follow easily from the decomposition of the orthogonal group | + | The constructions of Fubini follow easily from the decomposition of the orthogonal group $ \mathop{\rm SO} ( 4) $ |
| + | given by the quaternions: see [[#References|[a1]]]. | ||
====References==== | ====References==== | ||
<table><TR><TD valign="top">[a1]</TD> <TD valign="top"> M. Berger, "Geometry" , '''II''' , Springer (1987) pp. Sect. 8.9</TD></TR></table> | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> M. Berger, "Geometry" , '''II''' , Springer (1987) pp. Sect. 8.9</TD></TR></table> | ||
Latest revision as of 19:40, 5 June 2020
A model of the manifold of lines in a three-dimensional elliptic space $ S _ {3} $
on a pair of two-dimensional elliptic planes $ S _ {2} $.
Pairs of mutually-polar lines in $ S _ {3} $
are represented in a one-to-one manner by pairs of diametrically-opposite points of two spheres of unit radius in the Euclidean space $ \mathbf R ^ {3} $.
When one identifies diametrically-opposite points, one obtains a one-to-one representation of pairs of polar lines in $ S _ {3} $
by points of two elliptic planes $ S _ {2} $.
The manifold of pairs of polar lines is homeomorphic to the topological product of these two planes $ S _ {2} $.
A motion of $ S _ {3} $
is represented in the Fubini model by independent motions of the two planes $ S _ {2} $:
Every connected group of motions of $ S _ {3} $
is isomorphic to the direct product of two groups of motions of $ S _ {2} $;
the group of motions of $ S _ {3} $
is isomorphic to the direct product of the two groups of motions of the pair of planes $ S _ {2} $.
A Fubini model can also be constructed for a three-dimensional hyperbolic space $ {} ^ {2} S _ {3} $. In this case one uses the Plücker interpretation of the projective space $ P _ {3} $ in $ {} ^ {3} S _ {5} $. The group of motions of $ {} ^ {2} S _ {3} $ is isomorphic to the direct product of the two groups of motions of $ {} ^ {1} S _ {2} $; it is represented in the Plücker model by the subgroup of the group of motions of $ {} ^ {3} S _ {5} $ consisting of the motions that map two mutually-polar hyperbolic $ 2 $- planes into themselves. The lines of intersection of these planes with the absolute of $ {} ^ {3} S _ {5} $ form a family of straight line generators of a ruled quadric. The manifold of pairs of polar elliptic lines in $ {} ^ {2} S _ {3} $ is homeomorphic to the topological product of proper domains of the two planes $ {} ^ {1} S _ {2} $, that is, to the topological product of two discs, and the manifold of pairs of polar hyperbolic lines is homeomorphic to the product of ideal domains of the two planes $ {} ^ {1} S _ {2} $, that is, the topological product of two Möbius strips.
The model was proposed by G. Fubini [1].
References
| [1] | G. Fubini, Ann. Scuola Norm. Sup. Pisa , 9 (1904) pp. 1–74 |
| [2] | B.A. Rozenfel'd, "Non-Euclidean spaces" , Moscow (1969) (In Russian) |
Comments
The constructions of Fubini follow easily from the decomposition of the orthogonal group $ \mathop{\rm SO} ( 4) $ given by the quaternions: see [a1].
References
| [a1] | M. Berger, "Geometry" , II , Springer (1987) pp. Sect. 8.9 |
Fubini model. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Fubini_model&oldid=47003