Malaysian Journal of Mathematical Sciences, February 2016, Vol. 10(S)
Special Issue: The 3rd International Conference on Mathematical Applications in Engineering 2014 (ICMAE'14)
Spin-Zero Hawking Radiation: Bounds on the Zero-Angular-Momentum Mode Emission from Myers-Perry Black Holes
Ngampitipan, T., Boonserm, P., Chatrabhuti, A., and Visser, M.
Corresponding Email: [email protected]
Received date: -
Accepted date: -
Abstract:
From the quantum point of view, black holes are unstable and emit so-called Hawking radiation. Specifically, the Myers-Perry black holes are
generalized rotating Kerr black holes in higher-dimensions, popular in both Kaluza-Klein and braneworld scenarios, which might in principle
be detected through their Hawking radiation. One specific black hole characteristic is the greybody factor, defined in terms of the transmission probability of Hawking radiation back-scattered from the black hole gravitational potential barrier. In this paper, some rigorous bounds on the greybody factor for spin-zero Hawking radiation emitted in the zero angular-momentum mode from the Myers-Perry black holes are calculated. This calculation serves as a template for other angular momentum modes.
Keywords: Hawking Radiation, Greybody Factors, Myers-Perry black holes, Rigorous Bounds
