Submissions from David Manneh

[1]  faKiv:2404.08096 [pdf]

Magnetic monopoles

M. P. Gara, David Manneh

Comments: 11 pages

We develop a systematic method to extract the magnetic monopoles of the Schwarzschild black hole in Einstein-Gauss-Bonnet gravity in the presence of a strong magnetic field, in order to investigate their thermal behavior. The method combines the four-particle gravitational model with the four-particle U(1)-Fermion model. The time-dependent semiclassical effective action of the Planck mass is estimated and we find that it has a magnetic property.

[2]  faKiv:2404.08228 [pdf]

Effects of the cosmological constant on the temperature of the black hole

David Manneh, John M. Mahoney, Ketos Karami, Dmitri A. Kharzeev

Comments: 9 pages, 1 figure

Using the cosmological constant, we study the temperature of a black hole in the presence of matter, and compute the effect of the cosmological constant on the black hole entropy. We find that the effects of the cosmological constant are greatest at the critical temperature, and are independent of the cosmological constant. We determine the effect of the cosmological constant on the temperature of the black hole by considering the influence of the cosmological constant on the inflationary potential.