Part 5/10:
So how does this all reach the self-confinement of wave energy? The theory posits that waves can localize and potentially convert into particles through specific conditions imposed on the vacuum. By defining the vacuum as a non-linear elastic medium, we can experiment with simulations to visualize and potentially realize this phenomenon of self-confined energy.
Two critical assumptions form the foundation of our model: firstly, the vacuum possesses non-linear elasticity; secondly, light and matter are perturbations within this vacuum. Exploring the implications of these assumptions leads us deeper into studying how energy can become localized.