E. Frehland scite author profile

The vacuum line element inside an infinitely long rotating hollow cylinder is the usual flat space line element. It is fitted in a most general way to the general cylindrical vacuum field outside at the singular hypersurface R o = const, representing the infinitely thin hollow cylinder. With the use of the jump conditions at R o = const the surface densities τ x μ , of which the energy-momentum-stress tensor τ^ of the shell consists, are calculated. The physical properties of the cylinder, as derived from the eigenvalues and -vectors of τj, and the generated gravitational field are discussed in full detail.

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The general stationary gravitational vacuum field of cylindrical symmetry

Frehland

1971

Commun.Math. Phys.

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Stochastic Transport Processes in Discrete Biological Systems

Frehland

1982

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E. Frehland

Fluctuations of barrier structure in ionic channels

Current noise around steady states in discrete transport systems

Exact gravitational field of the infinitely long rotating hollow cylinder

The general stationary gravitational vacuum field of cylindrical symmetry

Stochastic Transport Processes in Discrete Biological Systems

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