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Home Jack Sarfatti's Blog Blog (Full Text Display) Dark Energy as Advanced Negative Energy Wheeler-Feynman Hawking Radiation

Aug
31

Tagged in: Wheeler-Feynman, Hawking radiation, Dark Energy

Jack Sarfatti Horizons, ‘t Hooft - Susskind Holographic Conjecture & Cosmic 10Hz EM Signal

We are outside observer-independent black hole horizons so that the inverse square law applies to them. In contrast, we are inside our observer-dependent cosmological horizons at the exact center where the Hawking radiation from it converges. Curiously, using the asymptotic area ~ 1052 meter2 of our future dark energy de Sitter horizon, and L ~ 10-35 meters for indirect Hawking-Unruh horizon thickness gravity wave emission corresponds very roughly (back-of-the-envelope) to a peak blackbody wavelength ~ 1013-17.5 ~ (1/3) x 10-4 meters ~ (3 x 1012 Hz)-1 with Stefan-Boltzmann HFGW energy density ~ hc/LP2A ~ 10-34 108 107010-52 ~ 10-8 Joules/meter3 ~ 10-28 gm/cc ~ critical density for k = 0 flat universe ~ dark energy density. Remember, these are black body gravity waves not electromagnetic waves. However, dark energy comes from virtual bosons with w = -1 negative quantum pressure causing the expansion of 3D space to accelerate rather than slow down. Blackbody radiation, in contrast, has w = +1/3 positive quantum pressure causing gravity universal attraction rather than anti-gravity universal repulsion. However, the Unruh effect’s Bogoliubov transformation says that the LIF observer sees virtual bosons with w = -1 whilst the physically coincident LNIF observer sees real blackbody bosons with w = +1/3. We are only concerned with the distant observer far away from the horizon, which limits to a LIF for both the Schwarzschild black hole and the de Sitter cosmological toy model metrics. So this is a clue as to what may really be going on. It is not a rigorous argument.

Even more problematical is that we, most likely, must use classical causality in the sense of where the past and future light cones intersect both the past particle and future event cosmological horizons of the detector. One can see that the area of our past particle horizon is smaller than the area of our future event horizon at the corresponding light cone intersections. The ball park numerical agreement with the actually observed dark energy density from Type 1a supernovae anomalous redshift data in our past light cones will only work if the gravity waves are advanced Wheeler-Feynman waves propagating back to us along our future light cone. This is reminiscent of Yakir Aharonov’s “destiny” post-selected quantum waves that interfere with pre-selected “history waves to form the “weak measurements” in the intermediate time. John Cramer’s “transactional interpretation” also uses advanced quantum waves. Of course, quantum waves for subluminal massive particles travel outside the classical light cones. Furthermore, the hologram conjecture is that a conformal 2D + 1 anyonic fractional quantum statistical heat resistant topological computer quantum field theory on both our past and future cosmological horizons provide a 3D + 1 quantum gravity geometrodynamics in the interior bulk of this causal diamond observable piece of a “Level 1” multiverse in the sense of Max Tegmark’s classification.[i] Thus, it is plausible that the dark energy density is an advanced Wheeler-Feynman hologram influence and that we live in a kind of virtual “weak measurement” computed reality. Fred Hoyle anticipated this picture back in 1983 in his book “The Intelligent Universe.” On the other hand, the hologram conjecture predicts that the Planck area pixels on our past and future cosmological quantum computing horizon screens have Fermi-scale voxels. This would mean a strong short-range Abdus Salam f-gravity “quantum foam” which may be disproved by the high-energy gamma ray experiments looking for violations of Lorentz invariance in deviations from the special relativity mass shell constraint. If so, that would disprove the hologram conjecture.

The above is for advanced black body gravity waves from our future cosmological horizon. What about advanced black body electromagnetic waves from the electron-positron plasma confined within a Compton wavelength of our future cosmological horizon? Now the peak wavelength is ~ 10-12/2 1013 ~ 107 meters ~ (10Hz)-1 in the same range as our EEG human brain waves relevant to our waking consciousness and other vital brain activity.

[i] Strictly speaking, the AdS/CFT conjecture has only been “proved” for negative cosmological constant in 4D+1, not for our actual positive cosmological constant in 3D+1. However, the general idea is intuitively appealing and we shall simply assume it is correct as a working hypothesis and wait for the mathematical types to catch up with us.

Jack Sarfatti On the other hand, in Feynman’s propagator diagram theory particles moving backward in time have negative energy. Wheeler and Ciufolini wrote:

“In the Hawking process, two newly created particles exchange energy, one acquiring negative energy –E and the other positive energy E. Slightly outside the horizon of the black hole, the negative energy photon has enough time to cross the horizon. Therefore, the negative energy particle flies inward from the horizon; the positive energy particle flies off to a distance. The energy it carries with it comes in the last analysis from the black hole itself. The massive object is no longer quite so massive because it has had to pay the debt of energy brought in by the negative energy member of the newly created pair of particles.” P. 68

Again we are outside black hole horizons, but are inside our observer-dependent cosmological horizons both past and future. Therefore, the advanced w = + 1/3 Wheeler-Feynman Hawking black body radiation from our cosmological future de Sitter event horizon will be exotic, i.e. negative energy density, causing universal anti-gravity repulsion.