Role of the Quanta of Sound in an Atom

The vibration modes and frequencies observed in a system can reveal much about forces acting within and on it. In this way, the nucleons vibrate at extremely high frequencies which are deduced by two sets of causes; their internal and external excitation.

At the internal excitation of nucleons, it seems that the interaction (collision) of the quark- gluon, beta decay and changes of quarks flavor, generate quanta of sound in nucleons. Generated acoustic waves propagate in the space- time of nucleons and also in moving boundary of quark- gluon and transmit across their boundaries.

On the other hand, generated quanta of sound can propagate on across the nucleons’ spherical boundaries and in turn, increase their vibration energy and also help to deformation of them from a spherical to an ellipsoidal.

At the external excitation of nucleons in space-time of the atom, in general, nuclear vibrations are excited by bombarding nuclei with high energy photons or other particles which in turn, can generate quanta of sound too.

Both of the internal and external excitation of the nucleons including resonated quanta of sound, which are continuously interacting with each other, can determine the quantum states of the fundamental particles and also atomic nuclei in an atom.