Fusion, with the production of a large amount of energy, is a technology that can be used in an advantageous way by society and be a factor contributing to the natural balance of the environment.
This study aims to present a possible compromising answer about a different physical-theoretical system. The model is supported by a conceptual thesis/thought, precursor of a probable more wide-reaching symbolic-informative relational theory.
The idea under test is that atomic particles can be fused not by a process where the Coulomb barrier is overcome, but the particles, under certain conditions, or rather, by altering and/or maintaining certain properties (connectedness), can break the space-time fabric, find themselves at an undefined point (nondual and/or suspended from their space-time frame), and finally return to the real state, whose paradigm rests on a distinction of the particle properties, with the release of energy.
General process. It is considered one antagonistic property of the particles to be resolved. If the environment is, say, equivalent, and the particles are placed in a right configuration in the apparatus, then one opposite property remains, and the particles can start the fusion process. (One antagonistic property is the way to say, yes and no – with the purpose of producing nonduality in a conceptual approach.) After nonduality occurs and after the return to the three-dimensional frame, the particles are approximately one, i.e., they become, by principle, bonded.
Process: rupture of the space-time fabric. The particles are disconnected from the space-time fabric of numerical quality. (Space-time is considered intrinsically of numerical quality.)
As particles start to become identified as one, which means a rupture of space-time: the numbers of their initial 3D space-time tend to be equals conceptually – the concept of an independent number ceases to exist.
Process: Non-duality. An element exists with property (or response) that eliminates antagonism: it induces in the system a conceptual change. This conceptual change is viewed as the loss of differentiation of the particles – particles are identified with a single property (in this case study, distance – Fig. 1). What the author calls weak and strong reference (Fig. 4), are fundamental for this change to happens.
Applying the system of the apparatus (which will permit such an all process) by setting it for initial conditions, the particle(s) return to the three-dimensional frame.