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The Particle Problem in the General Theory of Relativity

A. Einstein and N. Rosen
Phys. Rev. 48, 73 – Published 1 July 1935
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Abstract

The writers investigate the possibility of an atomistic theory of matter and electricity which, while excluding singularities of the field, makes use of no other variables than the gμν of the general relativity theory and the ϕμ of the Maxwell theory. By the consideration of a simple example they are led to modify slightly the gravitational equations which then admit regular solutions for the static spherically symmetric case. These solutions involve the mathematical representation of physical space by a space of two identical sheets, a particle being represented by a "bridge" connecting these sheets. One is able to understand why no neutral particles of negative mass are to be found. The combined system of gravitational and electromagnetic equations are treated similarly and lead to a similar interpretation. The most natural elementary charged particle is found to be one of zero mass. The many-particle system is expected to be represented by a regular solution of the field equations corresponding to a space of two identical sheets joined by many bridges. In this case, because of the absence of singularities, the field equations determine both the field and the motion of the particles. The many-particle problem, which would decide the value of the theory, has not yet been treated.

  • Received 8 May 1935

DOI:https://doi.org/10.1103/PhysRev.48.73

©1935 American Physical Society

Authors & Affiliations

A. Einstein and N. Rosen

  • Institute for Advanced Study, Princeton

See Also

The Birth of Wormholes

David Lindley
Phys. Rev. Focus 15, 11 (2005)

References

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Issue

Vol. 48, Iss. 1 — July 1935

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