Superfluids all have the unique quality that all their atoms are in the same quantum state. This means they all have the same momentum, and if one moves, they all move. This allows superfluids to move without friction through the tiniest of cracks, and superfluid helium will even flow up the sides of a jar and over the top.
Superfluids also have an amazingly high thermal conductivity. When heat is introduced to a normal system, it diffuses through the system slowly. In a superfluid, heat is transmitted so fast that thermal waves become possible. >From LENR, we know that Boss condensation can exist at room temperatures and even higher temperatures. A near infinite speed of heat transfer might be possible in a polariton condensate. On Sun, May 20, 2018 at 5:36 PM, Bob Higgins <[email protected]> wrote: > One of the things I will mention in my presentation at ICCF-21 next month > is detection of a non-Fourier heat transfer mode in thermal modeling work I > did for a calorimeter. Interestingly, Piantelli implicates such a mode as > stimulus of LENR in his Ni rod experiments. > > On Sun, May 20, 2018 at 12:55 PM, JonesBeene <[email protected]> wrote: > >> >> >> Another prior device comes to mind – the Qu-tube. Still a mystery. The >> test below showed a sample to conduct heat up to 30,000 times better than >> copper >> >> http://ntrs.nasa.gov/archive/nasa/casi.ntrs.nasa.gov/20080009660_2008009120.pdf >> >> … thus the Qu-tube is said to be a superconductor of heat. But NASA did not >> confirm the claim of its independent contractor in the paper above. >> >> If Dr. Qu’s claim were to be true then a superconductor of heat can actually >> be made - and may well have contained a functional equivalent of fresnoite. >> >> >> >> Hard to imagine that this could have been kept a virtual secret all these >> years… >> >> >> >> >> >> >> >> The following table gives the speed of sound in selected solids. >> >> >> >> Most types of glass and ceramic have a speed of sound of about 5000 >> meters per second. In air it is about 340 m/sec which is 767 mph. >> >> >> >> Diamond >> >> 12000 >> >> Pyrex glass >> >> 5640 >> >> Iron >> >> 5130 >> >> Aluminum >> >> 5100 >> >> Brass >> >> 4700 >> >> Copper >> >> 3560 >> >> Gold >> >> 3240 >> >> Lucite >> >> 2680 >> >> Lead >> >> 1322 >> >> >> >> In Fresno, however they found a local crystal in which sound can >> apparently zip around much faster. A factor of over 4 times faster thanks >> to “phasons”. >> >> >> >> https://www.ornl.gov/content/supersonic-propagation-lattice- >> energy-phasons-fresnoite >> >> >> >> The crystal is named “fresnoite” which is probably the best thing to come >> out of Fresno since Slim Pickens. “A good place to be from” as they say, >> with the emphasis on from. >> >> >> >> There are implications to phasons which are not mentioned… possibly even >> implications for LENR… >> >> >> >> >> >> >> > >
