Qiuhe Peng
Department of Astronomy, Nanjing University
Title: Both of Supernova Explosion and Hot Big Bang of the Universe Driven by Magnetic Monopoles and Challenge to Black Hole Models
Biography
Biography: Qiuhe Peng
Abstract
1) A unusually strong radial magnetic field detected near our Galactic Center (2013) is
consistent with the prediction from our model of supermassive object with magnetic
monopoles (MM) ( Peng and Chou 2001). The important implications of the unusually
strong radial magnetic field near the GC are: a) A strong evidence of the existence of MM;
b) The black hole model of the suppermassive object at the GC is nonphysical (Peng et al., 2016; 2017); c) MM may catalyze nucleon decay (Rubakov -Callen effect) may be real.
2) Taking the RC effect as an energy source, we have proposed an unified model for various supernova explosion (Peng et al. 2017). In our model, the remnant of the collapsed core of supernova is still a neutron star rather than a black hole no matter how huge of the supernova mass. That means, black holes with stellar mass are impossible to be formed through supernova explosion.
3) We may explain the physical reason of the Hot Big Bang of the Universe with the similar mechanism of supernova explosion by using the RC effect as an energy source. That is , the primordial Black hole of the whole Universe is no physical.
Reference
1) Eatough R.P., et al., 2013, “A strong magnetic field around the supermassive black hole at the centre of the Galaxy”,
2) Qiu-He Peng, Jing-Jing Liu and Chi-Kang Chou, 2016
“A possible influence on standard model of quasars and active galactic nuclei in strong magnetic field”, Astrophys Space Science (2016) 361:388
3) Qiu-He Peng, Jing-Jing Liu and Zhong-Qi Ma, 2017,
“Some new possible anticipated signals for existence of magnetic monopoles?”
New Astronomy, 57 (2017)59-62
Peng Q. and Chou C., 2001, “High-Energy Radiation From a Model of Quasars, Active