We consider for j=1/2, 3/2,... a spherically symmetric, static system of (2j+1) Dirac particles, each having total angular momentum j. The Dirac particles interact via a classical gravitational and electromagnetic field. The Einstein-Dirac-Maxwell equations for this system are derived. It is shown that, under weak regularity conditions on the form of the horizon, the only black hole solutions of the EDM equations are the Reissner-Nordstrom solutions. In other words, the spinors must vanish identically. Applied to the gravitational collapse of a "cloud" of spin-1/2-particles to a black hole, our result indicates that the Dirac particles must eventually disappear inside the event horizon.

Publié le : 1998-10-14
Classification:  General Relativity and Quantum Cosmology,  Mathematical Physics

@article{9810048,
     author = {Finster, Felix and Smoller, Joel and Yau, Shing-Tung},
     title = {Non-Existence of Black Hole Solutions for a Spherically Symmetric,
  Static Einstein-Dirac-Maxwell System},
     journal = {arXiv},
     volume = {1998},
     number = {0},
     year = {1998},
     language = {en},
     url = {http://dml.mathdoc.fr/item/9810048}
}

Finster, Felix; Smoller, Joel; Yau, Shing-Tung. Non-Existence of Black Hole Solutions for a Spherically Symmetric,
  Static Einstein-Dirac-Maxwell System. arXiv, Tome 1998 (1998) no. 0, . http://gdmltest.u-ga.fr/item/9810048/