Rob Woudenberg on LinkedIn Cold Fusion E-cat and LENR groups make reference to a recent article by Leif Holmlid and Bernhart Kotzias
https://www.linkedin.com/group…32340-6132874986727231489
New publication by Holmlid and Kotzias shows new leads to Airbus LENR research
The latest scientific publication of Em. Prof. Leif Holmlid and Bernhard Kotzias "Phase transition temperatures of 405-725 K in superfluid ultra-dense hydrogen clusters on metal surfaces" indicates a possible cooperation between the university of Gothenburg and Airbus.
Bernhart Kotzias currently is employed by Airbus Defense & Space and has been involved in LENR research for a while. He filed a patent application some time ago owned by Airbus: WO2015040077, ENERGY GENERATING DEVICE AND ENERGY GENERATING METHOD AND ALSO CONTROL ARRANGEMENT AND REACTOR VESSEL THEREFOR
The article is probably this one on scitation
http://scitation.aip.org/conte…dva/6/4/10.1063/1.4947276
Quote
Abstract
Ultra-dense hydrogen H(0) with its typical H-H bond distance of 2.3 pm is superfluid at room temperature as expected for quantum fluids. It also shows a Meissner effect at room temperature, which indicates that a transition point to a non-superfluid state should exist above room temperature. This transition point is given by a disappearance of the superfluid long-chain clusters H2N(0). This transition point is now measured for several metal carrier surfaces at 405 - 725 K, using both ultra-dense protium p(0) and deuterium D(0). Clusters of ordinary Rydberg matter H(l) as well as small symmetric clusters H4(0) and H3(0) (which do not give a superfluid or superconductive phase) all still exist on the surface at high temperature. This shows directly that desorption or diffusion processes do not remove the long superfluid H2N(0) clusters. The two ultra-dense forms p(0) and D(0) have different transition temperatures under otherwise identical conditions. The transition point for p(0) is higher in temperature, which is unexpected.