Charged Boson Stars and Vacuum Instabilities
Abstract
We consider charged boson stars and study their effect on the structure of the vacuum. For very compact particle like ``stars", with constituent mass m* close to the Planck mass mPl, i.e. m*2 = O (α mPl2), we argue that there is a limiting total electric charge Zc, which, primarily, is due to the formation of a pion condensate (Zc 0.5α-1e, where α is the fine structure constant and e is the electric charge of the positron). If the charge of the ``star" is larger than Zc we find numerical evidence for a complete screening indicating a limiting charge for a very compact object. There is also a less efficient competing charge screening mechanism due to spontaneous electron-positron pair creation in which case Zc α-1e. Astrophysical and cosmological abundances of charged compact boson stars are briefly discussed in terms of dark matter.
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