Kea said:
I liked 't Hooft's piece the best! Symmetry is no longer fundamental. He even used the word
ontological.
Must warn you Kea that when discussion goes philosophical it can QUICKLY get over my head---and my eyes glaze. But to read 't Hooft's part of that opinion piece one MUST confront those issues if only briefly.
Here is Rovelli and Colosi
http://arxiv.org/abs/gr-qc/0409054
Global particles, local particles
21 pages
"The notion of particle plays an essential role in quantum field theory (QFT). Some recent theoretical developments, however, have questioned this notion; for instance, QFT on curved spacetimes suggests that preferred particle states might not exist in general. Furthermore, a certain tension derives from the fact that QFT's particle states are intrinsically nonlocal, while experiments are localized. These considerations have lead some to suggest that in general QFT should not be interpreted in terms of particle states, but rather, say, in terms of eigenstates of local operators. On the other hand, it is not completely obvious how to reconcile this view with the empirically-observed ubiquitous particle-like behavior of quantum fields. We observe here that already in flat space there exist --strictly speaking-- two distinct notions of particles: globally defined n-particle Fock states and local particle states. The last describe the physical objects detected by the real finite-size particle detectors and are eigenstates of local field operators. In the limit in which the particle detectors are large compared, say, to the Compton wavelength, global and local particle states converge in a weak topology defined by physical measurements (but not in norm). This observation reconciles the two point of view and provides a local definition of particle state that remains well-defined even when the conventional global particle states are not defined. This definition could play an important role in quantum gravity, when asymptotic regions may not be available."
Maybe nothing new here to you. But at least it can serve to substantiate what the 't Hooft discussion is about.
Kea, I really like what I blued in the 't Hooft quote. It feels like the lifting of a weight off my mind. How obvious!
-------exerpt from 't Hooft Physicsweb------
Quantum mechanics could well relate to micro-physics the same way that thermodynamics relates to molecular physics... One might assume that all macroscopic phenomena, such as particle positions, momenta, spins and energies, relate to microscopic variables in the same way thermodynamic concepts such as entropy and temperature relate to local, mechanical variables.[/color]
-----endquote----
Such an evocative analogy! quantum mechanics EMERGES from something at an even smaller scale
down at Planckian scale, particles do not even exist, there is something else which we have to discover
imagine a micromicro web of relationships----out of collective behavior of tens thousands of linkages in this web a gross macroscopic collective behavior called "PARTICLE" has to emerge.
this collective coarsegrain behavior we identify as "particle" and assign "position" and "momentum" is analogous to the
phonons of vibration in a crystal----it is a particular dance that the more elementary entities do.
so the historical analogy and perspective that 't Hooft points us to is like the emergence of the atomic theory of matter---which many people did not accept even in 1905. They had overall laws of how a gas behaved (or a liquid) without supposing that the gas (or liquid) was made of many separate molecules.
I must say I find this very congenial, and reminiscent of what Sundance Bilson-Thompson was doing at the blackboard near the end of his 16 November Perimeter talk.
he was making a blurred chalky mess of it, because he kept rubbing out and redrawing, but he was trying to imagine "moves" by which interconnections in the micro-cobweb could change and from which the ILLUSION of particle interactions could arise (he did not say it quite that way
)
