Wormhole as a possible accelerator of high-energy cosmic-ray particles

A. A. Kirillov; E. P. Savelova

doi:10.1140/epjc/s10052-020-7609-3

EPJ

Wormhole as a possible accelerator of high-energy cosmic-ray particles

A. A. Kirillov^* and E. P. Savelova

Bauman Moscow State Technical University, Moscow, 105005, Russian Federation

Received: 18 March 2019
Accepted: 5 January 2020
Published online: 21 January 2020

Abstract

We present the simplest topological classification of wormholes and demonstrate that in open Friedmann models the genus

wormholes are stable and do not require the presence of exotic forms of matter, or any modification of general relativity. We show that such wormholes may also possess magnetic fields. It is found that when the wormhole gets into a galaxy or a surrounding region, it works as an accelerator of charged particles. If the income of the energy from radiation is small, such a wormhole works simply as a generator of synchrotron radiation. Estimates show that the threshold energy of such an accelerator may vary from sufficiently modest energies of the order of a few Gev, up to enormous energies of the Planckian order and even higher, depending on wormhole parameters.