tag:blogger.com,1999:blog-10614348.post9190728497745104615..comments2024-01-22T11:26:37.599-08:00Comments on TGD diary: Does a phase transition generating dark occur accompany criticality?Matti Pitkänenhttp://www.blogger.com/profile/13512912323574611883noreply@blogger.comBlogger4125tag:blogger.com,1999:blog-10614348.post-13707068383901033352014-12-03T17:16:50.917-08:002014-12-03T17:16:50.917-08:00Certainly. There would be long range correlations ...Certainly. There would be long range correlations in the scale of entire body. And there is also magnetic body: this gives correlated behaviors at the level of entire society by connecting us by flux tubes. Biological evolution is followed by cultural evolutions and web of flux tubes is the physical correlate for it.<br /><br />I have been trying to identify a general mechanism producing dark matter that is the phase transition generating large h_eff phases for a long time knowing that living matter does it somehow. <br /><br />Creating a critical system would be the universal recipe and it will be fun to see whether various mechanisms that I have considered hitherto and proposed applications are consistent with criticality. Dark matter would be everywhere but only at criticality!! Just as solitons and fractality suddenly popped up in all kinds of systems for decades ago. We do not see it if we refuse to believe that it might be there! Matpitka@luukku.comhttp://tgdtheory.fi/noreply@blogger.comtag:blogger.com,1999:blog-10614348.post-19045997385564473762014-12-03T09:19:27.047-08:002014-12-03T09:19:27.047-08:00So the synchronity in as instance moving a hand wo...So the synchronity in as instance moving a hand would depend on memory in nervous system, long-range fluxes?Ullahttps://www.blogger.com/profile/16634036177244152897noreply@blogger.comtag:blogger.com,1999:blog-10614348.post-69781946427657146172014-12-03T07:37:02.275-08:002014-12-03T07:37:02.275-08:00Sol-gel transition is a good example about quantum...<br />Sol-gel transition is a good example about quantum criticality. See http://en.wikipedia.org/wiki/Sol-gel . Sol is solution and gel contains both liquid and solid phase and would be the critical large h_eff phase in some narrow range of parameters. Phase separation of gel phase is forced if h_eff=h_gr hypothesis is true since n in h_eff=h_gr proportional to the particle mass means that particles with different masses are at magnetic flux tubes with different Planck constant. <br /><br />The exclusion zones (EZs) discovered by Pollack are analogous to gel phase and involve charge separation for electrons and protons: EZ has high negative charge meaning that positive charge of protons goes outside: my guess is that dark protons are at magnetic flux tubes. <br /><br />Cell interior is near criticality and small perturbation can induce transition to either phase. Transition would involve generation of gel phase and therefore long range correlations, quantum coherence, and sensitivity. What are the flux tubes now: maybe those connecting DNA to cell membrane?<br /> <br />Criticality (made possible by large h_eff phase implying also macroscopic quantum coherence) makes cell sensitive to external perturbations. It becomes sensory receptor able to react to the sensory input (by sending the input to magnetic body as Josephson radiation and receiving control signal via genome inducing "motor action".) Nerve pulse pattern induces a flow of the cell fluid and sol-gel transition in the vicinity of lipid layer. This in turn would induce flow of lipid layer, which is 2-D liquid. This would generate braiding of flux tubes connecting it to DNA codons (according to DNA as TQC model). Braiding would code the neural input. The neural pathways to brain would represent memories. These pathways maximize their length (from left part of the body to right hemisphere and vice versa): this maximises memory storage capacity. <br />Matpitka@luukku.comhttp://tgdtheory.fi/noreply@blogger.comtag:blogger.com,1999:blog-10614348.post-79380278626375080772014-12-03T02:13:51.911-08:002014-12-03T02:13:51.911-08:00The two phases in Life called sol-gel transitions ...The two phases in Life called sol-gel transitions directing motion etc. Can they be seen as being at criticality point? Hence they react fast? Why would they be critical? Because chirality and carbon, that is very flexible, also forms Dirac fermions?Ullahttps://www.blogger.com/profile/16634036177244152897noreply@blogger.com