It "allows the sources" to consider the question of how we see the existing universe. How perspective has been focused toward the reductionist understanding while we ponder the very nature of the universe.
For example, when neutrinos interact with matter they produce specific kinds of other particles. Catch the neutrino at one moment, and it will interact to produce an electron. A moment later, it might interact to produce a different particle. "Neutrino mixing" describes the original mixture of waves that produces this oscillation effect.
By my very nature, I have adopted the views of the Pythagoreans in that, what I see of the universe has it's counter part as some feature within our determinations "as the background" to the "nature of all matter." It's effect, from understanding the very basis of "particle creation" has this factor to be included in our determinations of that particle in question.
So, what views shall we assign to the Higg's Boson Field? The view of the cosmos at large? We needed to see that such events can and do happen within the universe. To see them at a level that had not been considered in terms of the microstate blackhole creation that is created from such particle collisions? One needed to identify where "these points" could exist not only in the collider, but in the cosmos at large. How else could you explain the division you have assigned the make up of the cosmos?
Usually all physicists see are the remnants of a new particle decaying into other types of particles. From that, they infer the existence of the new species and can determine some of its characteristics.
So we move from the limitations of the standard model?
This is a fixture of what has been accomplished, yet, how could we see things as so different to include gravity as a feature and new force carrier? If we are to consider the energy of all these matters, then how else could you have included gravity?
To slow them down, theorists proposed a mysterious, universe-filling, not-yet-seen "liquid" called the Higgs field. Also, physicists now understand that 96 percent of the universe is not made of matter as we know it, and thus it does not fit into the Standard Model. How to extend the Standard Model to account for these mysteries is an open question to be answered by current and future experiments.
While it is some what mysterious, the applications as ancient as they may seem, they are not apart from our constitutions as we have applied our understanding of the universe it seems:)
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