Abstract
We have shown that the permittivity of space grows for a beam of light as the gravitational field increases. Also, we have derived two values for Chandrasekhar limit. Using the necessity of equality of wavelengths in matching systems, we have derived the Hawking black hole temperature and evaporation time in an easier and completely different way, and shown that mass and wavelength of the field and black hole at Schwarzschild sphere are quantized. The extreme simplicity of the present new approach to black holes compared to those based on general relativistic ones should promote it.
Highlights
To basically find the lifetime of a black hole, S
We have shown that the permittivity of space grows for a beam of light as the gravitational field increases
Hawking has suggested that space is formed of particles of positive energy and virtual antiparticles of equal, in absolute value, of negative energy, as Kip Thorne mentions in his book [1] [2]
Summary
To basically find the lifetime of a black hole, S. The virtual antiparticles (with negative energy) fall into the black hole and the real particles escape to infinitely far from it. According to his suggestion, those negative energy virtual antiparticles falling into the black hole immediately get together with the positive energy real particles underneath the event horizon and reconstruct space. Those negative energy virtual antiparticles falling into the black hole immediately get together with the positive energy real particles underneath the event horizon and reconstruct space In this manner, the radius of the black hole event horizon should be decreasing. We show agreement between the present results and Chandrasekhar limit plus Hawking - black hole temperature and evaporation time
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