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Schwarzschild black hole surrounded by quintessential matter field as an accelerator for spinning particles

Pankaj SheoranInstituto de Física y Matemáticas, Universidad Michoacana de San Nicolás de Hidalgo, Edificio C-3, 58040 Morelia, Michoacán, MéxicoHemwati NandanCenter for Space Research, North-West University, Mafikeng 2745, South AfricaEva HackmannZARM, University of Bremen, Am Fallturm 2, 28359 Bremen, GermanyUlises NucamendiDepartamento de Física, Cinvestav, Avenida Instituto Politecnico Nacional 2508, San Pedro Zacatenco, 07360 Gustavo A. Madero, Ciudad de Mexico, MexicoAmare AbebeCenter for Space Research, North-West University, Mafikeng 2745, South Africa
2020en
ABI

Аннотация

We study the collision of two massive particles with nonzero intrinsic spin moving in the equatorial plane in the background of a Schwarzschild black hole surrounded by quintessential matter field (SBHQ). For the quintessential matter equation of state (EOS) parameter, we assume three different values. It is shown that for collisions outside the event horizon, but very close to it, the centre-of-mass energy (${E}_{\mathrm{CM}}$) can grow without bound if exactly one of the colliding particles is what we call near-critical, i.e., if its constants of motion are fine tuned such that the time component of its four-momentum becomes very small at the horizon. In all other cases, ${E}_{\mathrm{CM}}$ only diverges behind the horizon if we respect the M\o{}ller limit on the spin of the particles. We also discuss radial turning points and constraints resulting from the requirement of subluminal motion of the spinning particles.

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