Add to ORKGParticle creation by a black hole is investigated in terms of temperature corrections to the Casimir effect. The reduction of the Hawking effect to more familiar effects observed in the laboratory enables us to reveal the mechanism of particle creation. The blackbody nature of the Hawking radiation is due to the interaction of virtual particles with the surface of a "cavity" formed by the Schwarzschild gravitational field potential barrier. These particles are "squeezed out" by the contraction of the potential barrier and appear to an observer at J+ as the real blackbody ones. © 1987 Springer-Verlag
Particle creation by a black hole is described in terms of temperature corrections to the Casimir ef...
It is shown that the effect of particle creation by a black hole is a consequence of the Casimir eff...
The application of quantum-field flat-space-time results to a black hole reveals the domain and the ...
Particle creation by a black hole is investigated in terms of temperature corrections to the Casimir...
Particle creation by a black hole is investigated in terms of temperature corrections to the Casimir...
Particle creation by a black hole is investigated in terms of temperature corrections to the Casimir...
It is shown that the effect of particle creation by a black hole is a consequence of the Casimir eff...
It is shown that the effect of particle creation by a black hole is a consequence of the Casimir eff...
It is shown that the effect of particle creation by a black hole is a consequence of the Casimir eff...
The accelerated-mirror results are applied to a black hole. As a consequence the hole produces black...
The accelerated-mirror results are applied to a black hole. As a consequence the hole produces black...
The accelerated-mirror results are applied to a black hole. As a consequence the hole produces black...
Particle creation by a black hole is described in terms of temperature corrections to the Casimir ef...
Particle creation by a black hole is described in terms of temperature corrections to the Casimir ef...
Particle creation by a black hole is described in terms of temperature corrections to the Casimir ef...
Particle creation by a black hole is described in terms of temperature corrections to the Casimir ef...
It is shown that the effect of particle creation by a black hole is a consequence of the Casimir eff...
The application of quantum-field flat-space-time results to a black hole reveals the domain and the ...
Particle creation by a black hole is investigated in terms of temperature corrections to the Casimir...
Particle creation by a black hole is investigated in terms of temperature corrections to the Casimir...
Particle creation by a black hole is investigated in terms of temperature corrections to the Casimir...
It is shown that the effect of particle creation by a black hole is a consequence of the Casimir eff...
It is shown that the effect of particle creation by a black hole is a consequence of the Casimir eff...
It is shown that the effect of particle creation by a black hole is a consequence of the Casimir eff...
The accelerated-mirror results are applied to a black hole. As a consequence the hole produces black...
The accelerated-mirror results are applied to a black hole. As a consequence the hole produces black...
The accelerated-mirror results are applied to a black hole. As a consequence the hole produces black...
Particle creation by a black hole is described in terms of temperature corrections to the Casimir ef...
Particle creation by a black hole is described in terms of temperature corrections to the Casimir ef...
Particle creation by a black hole is described in terms of temperature corrections to the Casimir ef...
Particle creation by a black hole is described in terms of temperature corrections to the Casimir ef...
It is shown that the effect of particle creation by a black hole is a consequence of the Casimir eff...
The application of quantum-field flat-space-time results to a black hole reveals the domain and the ...