Keys to Quantum Gravity
All of
us know that Quantum gravity is still remaining as a question in physics. There
are so many proposals for quantum gravity in physics. Here I am proposing my
thoughts about quantum gravity. Here I am trying to explain quantum gravity
according to my point of view. It might be a key for the researchers who are
working with this field.
To say
something about quantum gravity we have to know what gravity is? Everybody in
the world will say that gravity is closely related with mass according to Sir
Isaak newton’s law of universal gravitation. I also agree with this theory but here
I am intended to say that gravity is closely related to the frequency of a
particle than its mass. Einstein has explained gravity very well in his theory
of special relativity too and we have the very famous equation in the world
that E= mc2. This equation is describing the relationship between
energy and mass but not giving us a correct definition of mass. Presently scientists
who are in this field are trying to get a definition of mass and to gravity. According
to me the most precious equation which can help us to get an answer about this question
is Plank relation, that E=Һѵ. According me this equation is describing the
relationship between energy and frequency.
At this
stage I was intended to think about blackbody radiation and photoelectric
effect to reach some conclusions. Blackbody radiation describes about the
minimum amount of energy required to form an electromagnetic field (a quantum).
Here we can say a photon as a unit particle. So here we can see that the
minimum amount of energy required forming a unit particle or a photon and its frequency.
Once we go through the photoelectric effect we can see that a photon can eject
an electron from an atom, if it has the sufficient frequency. Here we can see
that frequency of a photon varies. That means frequency of particles can vary
according to the energy stored in it. So here we can say that the minimum
amount of energy required to a photon to eject an electron from an atom. Here the
intensity of the photons has no roll. Here we can say that, if a photon doesn’t
have sufficient energy to eject an electron from an atom, it will radiate from
the atom at the same time. So the amount of energy stored in a particle is
directly related to frequency. These observations made me think about the
particles and the amount of energy stored in it.
In blackbody
radiation we can see that the minimum amount of energy required creating an
electromagnetic field and in photoelectric effect we can see that the minimum
amount of energy required to a photon to eject an electron from an atom. Now we
can imagine if the amount of energy is less than this level what will happens. Normally
we can say that its frequency will be less. In a blackbody it can’t create an
electromagnetic field and in photoelectric effect it can’t eject an electron
from an atom. So it is just actin on the object and cannot cause anything seriously.
At this stage I am intended to think that if a particle with the amount of
stored energy much lesser than that of a photon (may be half or something less
than a photon).what will happen if it is like that? Normally we can say that
the frequency will be that much lesser. So at this time those particles with
lesser energy in it cannot act against anything. It can be act like a transparent
object and it can show only gravity according to its frequency.
According
to me if two or more photons are accommodating in a system, it can add some
mass to the total system. Like this way these low energy particles can add mass
on a system according to the amount of the particles in the system. Here I am
intended to say that dark matter may be existing as particles like this. Here we
can use the equation E=Һѵ and calculate the range of gravity. I just have
started my new project about quantum gravity with this thoughts and hope to get
good result soon.
Reference
http://dx.doi.org/10.4236/ijaa.2014.41015
Aloysius Sebastian
aloysi.aloys@gmail.com
+393664968460
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