On Connections Of Cartan

Shôshichi Kobayashi

doi:10.4153/CJM-1956-018-8

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Introduction. Consider a differentiable manifold M and the tangent bundle T(M) over M, the structure group of which is usually the general linear group G'. Let P' be the principal fibre bundle associated with T(M). Consider the fibre F of T(M) as an affine space, then we have acting on F the affine transformation group G, which contains G' as the isotropic subgroup.

References

1. Ambrose, W. and Singer, I. M., A theorem on holonomy, Trans. Amer. Math. Soc. 75 (1953), 428–443.Google Scholar

2. Chevalley, C., Theory of Lie groups (Princeton, 1946).Google Scholar

3. Ehresmann, C., Les connexions infinitésimales dans un espace fibré différentiable, Colloque de Topologie (Bruxelles, 1950).Google Scholar

4. Kobayashi, S., Le groupe des transformations qui laissent invariant le parallélisme, Colloque de Topologie (Strasbourg, 1954).Google Scholar

5. Kobayashi, S., Espaces à connexion de Cartan complets, Proc. Jap. Acad. 30 (1954), 709–710.Google Scholar

6. Kobayashi, S., Espaces à connexions affines et riemanniennes symétriques, Nagoya Math.]., 9 (1955) 25–27.Google Scholar

7. Kobayashi, S. and Nomizu, K., Curvature, torsion and holonomy (unpublished).Google Scholar

8. Nomizu, K., Invariant affine connections on homogeneous spaces, Amer. J. Math. 76 (1954), 33–65.Google Scholar

9. Steenrod, N., The topology of fibre bundles (Princeton, 1951).Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Wang, Hsien-Chung 1958. On Invariant Connections over a Principal Fibre Bundle. Nagoya Mathematical Journal, Vol. 13, Issue. , p. 1.

Hermann, Robert 1960. A sufficient condition that a mapping of Riemannian manifolds be a fibre bundle. Proceedings of the American Mathematical Society, Vol. 11, Issue. 2, p. 236.

1964. Vol. 15, Issue. , p. 260.

CrossRef

Ochiai, Takushiro 1970. Geometry associated with semisimple flat homogeneous spaces. Transactions of the American Mathematical Society, Vol. 152, Issue. 1, p. 159.

Lumiste, �. G. 1973. Connection theory in bundle spaces. Journal of Soviet Mathematics, Vol. 1, Issue. 3, p. 363.

Ne'eman, Yuval 1978. Differential Geometrical Methods in Mathematical Physics II. Vol. 676, Issue. , p. 189.

Sternberg, Shlomo 1978. Differential Geometrical Methods in Mathematical Physics II. Vol. 676, Issue. , p. 1.

Chow, Yutze 1980. Fiber bundles, sheaf theory, and generalization of differentiable manifolds in physics. International Journal of Quantum Chemistry, Vol. 17, Issue. 1, p. 85.

Evtushik, L. E. Lumiste, Yu. G. Ostianu, N. M. and Shirokov, A. P. 1980. Differential-geometric structures on manifolds. Journal of Soviet Mathematics, Vol. 14, Issue. 6, p. 1573.

Stelle, K. S. and West, P. C. 1980. Spontaneously broken de Sitter symmetry and the gravitational holonomy group. Physical Review D, Vol. 21, Issue. 6, p. 1466.

Tucker, R. W. 1981. Affine transformations and the geometry of superspace. Journal of Mathematical Physics, Vol. 22, Issue. 2, p. 422.

Rapoport, Diego and Sternberg, Shlomo 1984. On the interaction of spin and torsion. Annals of Physics, Vol. 158, Issue. 2, p. 447.

McInnes, B T 1984. On the geometrical interpretation of 'non-symmetric' space-time field structures. Classical and Quantum Gravity, Vol. 1, Issue. 2, p. 105.

Burdet, G. and Perrin, M. 1985. Structural invariance of the Schrödinger equation and chronoprojective geometry. Journal of Mathematical Physics, Vol. 26, Issue. 2, p. 292.

Drechsler, W and Thacker, W 1987. Generalised spinor fields and gravitation. Classical and Quantum Gravity, Vol. 4, Issue. 2, p. 291.

Hazewinkel, Michiel 1988. Encyclopaedia of Mathematics. p. 1.

Zardecki, Andrew 1988. Gravity as a gauge theory with Cartan connection. Journal of Mathematical Physics, Vol. 29, Issue. 7, p. 1661.

Castagnino, Mario and Yastremiz, Claudia 1988. Quantum Mechanics of Fundamental Systems 1. p. 73.

Drechsler, W 1989. Gauge theory for extended elementary objects. Classical and Quantum Gravity, Vol. 6, Issue. 5, p. 623.

Aldinger, R R 1990. Geometrical SO(4, 1) gauge theory as a basis of extended relativistic objects for hadrons. Journal of Physics A: Mathematical and General, Vol. 23, Issue. 11, p. 1885.

Download full list

Article contents

On Connections Of Cartan

Extract

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests