deletions | additions       diff --git a/Massive coupling.tex b/Massive coupling.tex  index 6ff884f..48acfc9 100644  --- a/Massive coupling.tex  +++ b/Massive coupling.tex 
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%  Also the mass of the particles must be expressed by a property of the "ST". We recall the general relativity where the space-time lattice (used by an observer at a given reference system) is curved by the mass of the objects. The mass thus becomes a physical characteristic (gravitational charge $\Gamma$) acting on the ST, through the gravitational field.\\  The equivalence principle \cite{Einstein_1908} leaded to the equivalence between the gravitational charge $\Gamma$ and the gravitational mass $m_g$ (in this case intended as \emph{resinstance} to the gravitational force). We must recall that a lot of experiments \cite{agner_Gundlach_Adelberger_2008,ravari_Maccarone_Lucchesi_2009,Comandi_Saravanan_et_al__2012} shown the equivalence between the inertial mass, $m_i$, and the gravitational mass, $m_g$, so $m_i = m_g = \Gamma$ and we can conclude that the mass (inertia) $m$ of an object became a characteristics acting to the ST. So, taking into account of general relativity and of the connatural structure of the massive particles and gravitational field, we can derive that the mass of a particle must be expressed from a fundamental property of the field $\Xi$. Now we conjecture that the mass is given by a particular \emph{elastic coupling} (a \emph{massive coupling}) between the oscillators of $\Xi$.\\  We observe that if we define the mass of a particle with the massive coupling between IQuOs, there's no dinstiction between inertial and gravitational mass.\\  In order to understand better this conjecture we use the relativistic invariant given by the proper time $\tau$. In the Minkowsky spacetime we read the forth component of the speed, $u_4 = ic$, with $c$ speed of light, like an index for the \emph{movement in time}.\\  So we could interpret the series of events in every any system like \emph{the index of the passage of time} in it. This characteristic is associated to the massive object, because when it takes existence, \emph{time is starting to move}. It must then exist a characteristic of the object that is connected with this type of motion, rather it is its generator.\\  The \emph{uniform motion in time} recalls the clock, so it must exist \emph{into} every particle-object a periodical motion that produces the \emph{motion in time}. So we call about an \emph{internal clock} with $\omega_0$ the proper frequency, and the characteristic connected with the proper time will coincide with the proper mass $m_0$. In support of this, we recall that the hamiltonian $H$ is the generator of the motion transformations.\\