sobota 7. března 2009

AWT and superconductive mirror for gravitational waves

This post is a comment of recent ArXiv article (via KFC) about concept of superconductive mirrors for gravitational waves. This is a bright and very interesting idea, fully consistent with Aether theory. Now we can rethink Le-Sage theory of gravity and all these “controversial” Podkletnov and Tajmar “antigravity” experiments from perspective of this concept immediately, because by AWT the Casimir and gravity force and inverse square law results from shielding effect of tachyon waves spreading in many dimensions and the shielding of these waves would result into shielding effects of gravity, i.e. antigravity anomalies observed in connection to superconductivity.

From AWT follows, the part of light waves passing through dense body, for example the interior of black holes will spread through it by superluminal speed, i.e. like tachyonic gravitational waves in analogy to wave spreading at water surface and underwater.

Therefore surface of black hole beneath event horizon should reflect light waves by the same way, like water surface reflects sound waves coming from underwater by total reflection mechanisms. This explains, why event horizon behaves like one-way mirror for energy waves. Only long wavelength portion of this radiation can penetrate event horizon freely in form of gravitational waves and so called Hawking radiation. Because observable universe can be interpreted as a dense cluster of black holes, this concept has a close relation to “cosmic hall of mirrors” models of Universe interior and to some observation of infrared-shifted reflections of remote objects, as observed by Spitzer telescope.

In addition, AWT considers high-pressure model of superconductivity, by which charge carriers are forced in chaotic motion due their repulsive interactions under mutual pressure, which are compensating mutually inside of charge stripes of HT superconductors. The asymmetric d-orbitals of transition metals (Nb) and hole stripes in diamond, cuprates or iron arsenides attracts the electrons up to level, their repulsive forces are mutually compensates, so that collective chaotic motion of electrons (superfluidity) can be achieved, which manifests itself like superconductivity.

Black hole are formed by highly compressed system of particles, which are forming superfluid condensate by similar way, like charge carriers inside of superconductors, so that every superconductor can serve as a low density model of black hole interior and it should reflect gravitational waves by its inner surface as well.

The above model brings an interesting analogy between formation of superconductivity induced by presence of hole stripes and black hole formation at the center of galaxies. By AWT superconducting phase appears at the center of hole clusters, because tiny particles (electrons) are mutually collapsed by attractive forces of larger objects (holes formed by atom nuclei). Analogously, black holes appears like vacuum condensate at the center of galaxies, because particle of vacuum are collapsed together here by attraction of larger objects - i.e. by stars near center of galaxy. If this model is right and dynamic equillibrium exists here, then the black hole should lose its mass, when thrown out from gallactic center for example by gravitational slingshot mechanism during galactic collisions - which appears a bit strange for me.


By relativity a black hole is formed, whenever event radius encircles a mass, the critical density of which exceeds Schwarzschild's criterion R = 2 GM. For large black holes critical density is relatively low and it could be achieved even by bulk density of massive bodies surrounding the center of galaxy. It would mean, the black holes can be formed automatically, whenever sufficient number of massive objects appears at proximity by the same way, like superconducting phase appears, whenever sufficient concentration of holes is reached inside of electron fluid. The lack of black holes at the center of small stellar clusters and dwarf galaxies supports this view partially.

AWT is not the only theory, which is considering a concept of tachyonic gravitational waves and black hole model of Universe on background. By holographic principle virtual particle excitations ("tachyon condensation") inside of vacuum can correspond virtual excitations inside of superconductors due the absorption of graviton waves in superfluid, forming the interior of black hole. These excitation should correspond massive particles, which we can observe around us. The more close comparison of AWT and holographic theory will be discussed in post dedicated to polarization and dispersion of gravitational waves later.

Anyway, I hope, these simple mechanical models could improve consistent understanding of concept, which Chiao's group has proposed.

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