Jones, Even if true that H(-1) exists as a superfluid/RTSC (and Winterberg says that the ultra-dense form only occurs with deuterium), then it is highly likely that it would be a type II superconductor, like all of the superconductors above about 40K. The type II superconductors pin a magnetic field inside it if the field was there when the superconducting state formed. So, you wouldn't get the instant repulsion.
On Thu, Nov 5, 2015 at 3:56 PM, Jones Beene <jone...@pacbell.net> wrote: > Of interest… > > > > In a 2014 paper, Holmlid says: “Ultra-dense hydrogen H(-1) is a quantum > material and the first material which is superfluid and superconductive at > room temperature. This has been shown in detail for the deuterium form > D(-1).” > > > > Comment: > > As a RTSC, the dense material H(-1) will be subject to the Meissner > effect. If it is created on a ferromagnetic catalyst which has permanent or > applied magnetic field, which is possible to accomplish with iron oxide as > the fill, then H(-1) should be repelled as soon as it is made. > > > > The H(-1) can made within a translucent alumina tube filled with Shell 105 > and hydrogen, using photons shining into the tube, so as to create SPP on > the interfacial ID surface of the tube. The H(-1) should slowly migrate > into the walls of the alumina. This should happen as soon as it is formed > due to Meissner repulsion. Laser light should be avoided in favor of > diffuse monochromatic light during the fuel build-up stage. It would be > beneficial to cool the tube as much as possible at this stage, possibly > using a cold plate. The alumina matrix would be effectively porous to H(-1) > at only a few picometers in diameter. > > > > This is concievably an effective way to make and store the H(-1) for later > use. > > > > >
