Professor Sveinn Olafsson of Iceland has shared this presentation of his and Professor Leif Homlid’s work with Rydberg hydrogen and ‘cold fusion’
Get your Geek On if you like physics outside of the box….
Cold fusion now has a proven testable mainstream theory explaining why it occurs and has occurred as originally announced in March 1989…
The skeptics, nare-do-wells, and dogmatics are revealed as fools or worse!
Welcome to the end of the fossil fuel age.
These slides are from a talk delivered at Stanford, spring 2016 walk through the Rydberg fusion experiments and data.
This work offers both a demonstrably tested and proven theory for cold fusion as well as detailed description of the work and how it relates to other cold fusion studies going back to the March 1989 announcement of Fleischmann and Pons in Utah. One startling discovery in this work is the observation of the emission of muons!
The key condition that enables this ‘cold fusion’ to occur is the development of ultra-dense Rydberg hydrogen that forms on command within microscopic domains inside of metals. This ultra-dense hydrogen/deuterium is said to be at a density 1000 times that found in the center of our Sun, perhaps attaining the density of a neutron star, quark soup! With the nuclei squashed so closely together fusion readily is takes place and can be stimulated to become prolific by being simply illuminated with an ordinary green laser. This cold fusion occurs at a temperature that is very cold compared to that of normal hot fusion and in a very unexpected neutron free form.
For those of us who were friends of the late great and much maligned Martin Fleischmann we can remember well his speaking all those years ago of hydrogen density in his experiment far in excess of that of metallic hydrogen and indeed of the role of ‘deep Dirac levels’ and Poynting vector mysteries! All elements of a new age of science from outside the box.
Imagine how much better the world would be today if the mis and dis information campaign against cold fusion had not been so successfully waged for the past quarter of a century! Vastly reduced fossil fuel emissions would have put climate change under control and infinite low cost energy would have allowed trillions to be spent on the betterment of mankind, to say nothing of the elimination of 25 years of ‘oil wars’ and the millions of people violently killed.
Read more about the new age of cold fusion by linking here… or scroll down for the geeky bits!
Welcome to the end of the fossil fuel age and the beginning of the age of cold fusion!
A pdf of this slide collection is freely available online
You might catch a session at the April 2016 APS meeting in Salt Lake City on this topic.
APS April Meeting 2016
Saturday–Tuesday, April 16–19, 2016; Salt Lake City, Utah
Session E11: Energy Research and Applications
3:30 PM–5:18 PM, Saturday, April 16, 2016
Abstract: E11.00009 : Rydberg phases of Hydrogen and low energy nuclear reactions
5:06 PM–5:18 PM
Preview Abstract MathJax On | Off Abstract
(Faculty of Physical Sciences, University of Iceland, Reykjavik, Iceland)
(Atmospheric Science, Department of Chemistry and Molecular Biology, University of Gothenburg, SE-412 96 Goteborg, Sweden)
For over the last 26 years the science of cold fusion/LENR has been researched around the world with slow pace of progress. Modest quantity of excess heat and signatures of nuclear transmutation and helium production have been confirmed in experiments and theoretical work has only resulted in a large flora of inadequate theoretical scenarios. Here we review current state of research in Rydberg matter of Hydrogen that is showing strong signature of nuclear processes. In the presentation experimental behavior of Rydberg matter of hydrogen is described. An extensive collaboration effort of surface physics, catalysis, atomic physics, solid state physics, nuclear physics and quantum information is need to tackle the surprising experimental results that have so far been obtained. Rydberg matter of Hydrogen is the only known state of matter that is able to bring huge collection of protons to so short distances and for so long time that tunneling becomes a reasonable process for making low energy nuclear reactions. Nuclear quantum entanglement can also become realistic process at theses conditions.