Accretions of dark matter and dark energy onto ( n + 2 $n+2$ )-dimensional Schwarzschild black hole and Morris-Thorne wormhole

Abstract

In this work, we have studied accretion of the dark matter and dark energy onto of \((n+2)\)-dimensional Schwarzschild black hole and Morris-Thorne wormhole. The mass and the rate of change of mass for \((n+2)\)-dimensional Schwarzschild black hole and Morris-Thorne wormhole have been found. We have assumed some candidates of dark energy like holographic dark energy, new agegraphic dark energy, quintessence, tachyon, DBI-essence, etc. The black hole mass and the wormhole mass have been calculated in term of redshift when dark matter and above types of dark energies accrete onto them separately. We have shown that the black hole mass increases and wormhole mass decreases for holographic dark energy, new agegraphic dark energy, quintessence, tachyon accretion and the slope of increasing/decreasing of mass sensitively depends on the dimension. But for DBI-essence accretion, the black hole mass first increases and then decreases and the wormhole mass first decreases and then increases and the slope of increasing/decreasing of mass not sensitively depends on the dimension.