There are no scalar Lie fields in three or more dimensional space-time. (English) Zbl 0318.53032


53B99 Local differential geometry
53A55 Differential invariants (local theory), geometric objects
Full Text: DOI


[1] Greenberg, O. W.: Ann. Phys.16, 158 (1961) · Zbl 0099.23103
[2] Łopuszański, J. T.: Phys. Lett.8, 85 (1964)
[3] Wightman, A. S.: 1964 Cargèse Lectures in Theoretical Physics (ed. M. Lévy), pp. 191–196. New York: Gordon and Breach 1967
[4] Robinson, D. W.: Phys. Lett.9, 189 (1964)
[5] Lowenstein, J. H.: Commun. math. Phys.6, 49 (1967) · Zbl 0166.23504
[6] Greenberg, O. W.: Commun. math. Phys.9, 13 (1968) · Zbl 0162.28804
[7] Streater, R. F., Wightman, A. S.: PCT, Spin and Statistics and All That. New York: Benjamin 1964 1964 · Zbl 0135.44305
[8] Jost, R.: The General Theory of Quantized Fields. Providence: AMS 1965 · Zbl 0127.19105
[9] Greenberg, O. W.: J. Math. Phys.3, 859 (1962)
[10] Robinson, D. W.: Helv. Phys. Acta35, 403 (1962)
This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. It attempts to reflect the references listed in the original paper as accurately as possible without claiming the completeness or perfect precision of the matching.