Neutrosophic Magnetic Field

Let $\Psi $ be a magnetic pole or a conductor throughout which a current flows. The field of force surrounding $\Psi $, where does exist a magnetic flux, is actually a \textit{Neutrosophic Magnetic Field}, because it is formed by three main zones, as in neutrosophy \textbraceleft \textless $\Psi $\textgreater , \textless neut$\Psi $\textgreater , and \textless anti$\Psi $\textgreater \textbraceright : - magnetic field inner-zone, where the magnetic force generated by $\Psi $ acts completely \textbraceleft zone \textless $\Psi $\textgreater \textbraceright ; - magnetic field neutro-zone \textbraceleft neutral or indeterminate zone \textless neut$\Psi $\textgreater \textbraceright , which is a buffer zone between two opposites, where the magnetic force generated by $\Psi $ is vague, unclear; - and magnetic field outer-zone \textbraceleft opposite zone \textless anti$\Psi $\textgreater \textbraceright , where the magnetic force generated by $\Psi $ does not act at all. In general, it is not a steady frontier between the magnetic field inner zone, and magnetic field outer zone, but a buffer zone between these opposites. As a consequences, if $\Psi $ is a celestial object - for example the Earth, or any other planet, also the Sun, or any other star -, their gravitational field frontiers are not steady, but neutral / indeterminate magnetic field buffers.