In my previous paper about the correlations between quantum mechanics and the four different natural
forces, I suggested that there may be a fifth force or even the existence of a new particle. However, it
remains a mystery to physicists, even after nearly a hundred years, that they cannot unify these four
natural forces. This may be because there are indeed too many variables for them to consider. Also, there
is a possibility that quantum mechanics may coexist with quantum field theory. In the present paper, this
author proposes that there may be a misconception in the computational equation for relative time or
gaps in the system for measuring time between quantum mechanics and general relativity. Hence, one
may still not be able to unify these natural forces. This author suggests that we may need to rewrite
parts of quantum mechanics – the Schrödinger equation – or even the general relativity equation.
Additionally, this author proposes that there may be a bridge equation converting between quantum
mechanics and general relativity.
Moreover, this author has employed the non-trivial zeta zeros to simulate the black hole or the so-called
black hole toy model. In practice, there may be an electromagnetic field surrounding the boundary of
the black hole, as well as the existence of a continuum along the boundary contour. This author hopes
that, in such a case, we may decode those high-frequency electromagnetic waves into useful information
and take a further step toward verifying Stephen Hawking’s famous theory on black hole radiation and
information entropy. In fact, this author has used the HKLam statistical model theory to express the
electromagnetic field energy-stress tensor (with the possibility of quantization) to analogically establish
a quantized model for the Einstein Gravitational Field Equation. Hence, the problem of quantum gravity
may then be solved. Last but not least, this author also expects that humanity may finally find a way to
unify quantum mechanics and general relativity through modifications to the current quantum gravity
theory, such as my proposed bridge-converting equation, etc.
