Prof. Robert B. Laughlin
The crystalline state is the simplest known example of a quantum , a stable state of matter whose generic low-energy properties are determined by a higher organizing principle and nothing else. Robert Laughlin
Thre are certain perspective that are different then what reductionism has done to serves it's purpose? Now such ideas lanquish because they seem unfitting. So you gain perspective by those who think about things differently and see what parameters rule the logic of their ideas.
In his book The End of Science John Horgan argues that our civilization is now facing barriers to the acquisition of knowledge so fundamental that the Golden Age of Science must must be thought of as over [38]. It is an instructive and humbling experience to attempt explaining this idea to a child. The outcome is always the same. The child eventually stops listening, smiles politely, and then runs off to explore the countless infinities of new things in his or her world. Horgan's book might more properly have been called the End of Reductionism, for it is actually a call to those of us concerned with the health of physical science to face the truth that in most respects the reductionist ideal has reached its limits as a guiding principle. Rather than a Theory of Everything we appear to face a hierarchy of Theories of Things, each emerging from its parent and evolving into its children as the energy scale is lowered. The end of reductionism is, however, not the end of science, or even the end of theoretical physics. How do proteins work their wonders? Why do magnetic insulators superconduct? Why is 3He a superfluid? Why is the electron mass in some metals stupendously large? Why do turbulent fluids display patterns? Why does black hole formation so resemble a quantum phase transition? Why do galaxies emit such enormous jets? The list is endless, and it does not include the most important questions of all, namely those raised by discoveries yet to come. The central task of theoretical physics in our time is no longer to write down the ultimate equations but rather but to catalogue and understand emergent behavior in its many guises, including potentially life itself. We call this physics of the next century the study of complex adaptive matter. For better or worse we are now witnessing a transition from the science of the past, so intimately linked to reductionism, to the study of complex adaptive matter, firmly based in experiment, with its hope for providing a jumping-off point for new discoveries, new concepts, and new wisdom.
So for me as I look at the state of the world I am asking what patterns were pre-esstablished that would govern the higg's mechanison and looking for such a "organizational attribute" would have settled the question as to why people gathered around the professor as Einstein crossed the room.
From a reductionsitic standpoint what was the "energy" doing as we used these colliders as mechanisims towards matter/mass comstituents discovery. Did this disavow our views on what was emergent from a point in spacetime?
So of course I will draw people's attention to what I think has to come into "expression" and how this is done. What is the "basis" of that expression and how we will see it explode into the sociological valuation that constitutes our society of exchanges.
I referred to John Nash here many times. What is it, he discovered at the heart of "negotiated processes?" What is the schematics of that expression that he identified in human behavior, as showing such schemas? Birds, that had some "higher organization pattern" that governed flock movement?
So are strings a emergent phenomena? You had to know their place in the scheme of things. Do your recognized the method as to the nergy valuation given? How such branching is effected, based on some "Feynman toy model discription" that revealed what about the early universe?
Edward Witten:
One thing I can tell you, though, is that most string theorist's suspect that spacetime is a emergent Phenomena in the language of condensed matter physics
What about pushing "perspective back" to the microseconds? At what point does the Universe make itself known? Had you already forgotten about the "first three microseconds?"
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