The D(0) (metalized hydrogen) is a cluster of atoms that oftentimes number from under 100 to maybe in an exception as much as a thousand. Under the influence of Rydberg blockade provided by alkali catalysts (potassium, lithium) , the D(0) forms a Hole superconductor that has a core of positive charges in the core and a electron/boson spin wave of negative charges that cover the surface of the cluster. This surface is organized as a spin wave that is coherent and contains Surface Plasmon Polaritons (SPP) as a component of the spin wave. The SPP is a bubble of many entangled electrons and photons that store energy in a whispering gallery wave format in the giga electron volt range. The photon/electron entangled pairs start out in the infrared energy range but as energy is added, the SPPs advance into the XUV and x-ray energy range. All the SPPs are entangled and share energy that form the spin wave. Any D(0) can store a vast amount of energy in the spin wave. The SPPs are analog monopoles who becomes easily entangled by their nature. The energy that is added to the spin wave Bose condensate is stored as a magnetic flux line cover that converts the D(0) into a analog monopole. The monopole trails of D(0) have been seen in photo emulsions where their energy has been calculated to get into the Giga electron volt range as determined by ionization trail calculations.
https://www.youtube.com/watch?v=pRKblAn8lLI This patterned magnetic field extends out and destabilizes protons and neutrons inside of nuclei that are near the D(0) and brings some of the nuclear energy into the spin wave via entanglement but most of the nucleon decay energy forms mesons that are entangled with the D(0) spin wave. As the meson decays into many other sub-atomic particles, they all remain energetically entangled with the D(0) that produced the meson(s) no matter how far away from the D(0) those decaying particles happens to be away from the decaying remnants of the nucleons. This process of entanglement with the D(0) is how the muon bubble forms. The D(0) can be thought of as an extended wave of energy that can extend out many meters, with other nuclear reactions produced in superposition with the muon waves that are connected to the D(0) monopole magnetic quasiparticle. This magnetic spin wave cover makes the D(0) indestructible and no amount of heat and pressure can penetrate into the D(0) to disrupt it. The D(0) keeps bring in energy until a limit is reached and this quasiparticle explodes into a Bosenova of XUV and x-ray light and magnetism where the stored energy is converted into a magnetic proton supercurrent. This proton supercurrent is the source of intense magnetic fields that have been seen in some LENR systems. First ever supercurrent observed at room temperature http://physicsworld.com/cws/article/news/2016/aug/02/first-ever-supercurrent-observed-at-room-temperature The factor that causes the proton and the neutron to decay is CP violation. Ordinarily, the proton and neutron are in their lowest energy color force state, but when a rotating magnetic field is applied, these nucleons become excited and the weak force becomes activated and can produce nucleon decay. The spin wave on the surface of the D(0) produces a properly formatted magnetic field that excites the nucleons. In other types of LENR systems, crystal filters generate the properly formatted rotating magnetic fields. Like the specific shape of a key opens a lock, if the stimulus for the LENR reaction within the nucleon is a specific moire patterning of a monopole magnetic field, that would explain why certain crystal configurations induce the LENR reaction. See Hexagonal Crystals and LENR (Axil Axil) http://www.e-catworld.com/2016/01/16/hexagonal-crystals-and-lenr-axil-axil/ Possibly, metalized hydrides produce the proper magnetic pattern without crystal based filtering, but other materials can produce the proper magnetic pattern through filtering of a monopole magnetic field through the appropriate crystal structure. For example, Dennis Cravens Golden balls http://www.infinite-energy.com/images/pdfs/NIWeekCravens.pdf[/quote] "To assure a strong magnetic field in the active material the spheres contain a ground samarium cobalt (Sm2Co7) magnet, which stays magnetized at higher temperatures. This was powdered and the powder is mostly random but it should provide a strong magnetic field within the sample" The Sm2Co7 magnet produces the required anisotropic magnetic field lines(monopole like magnetic field). Deuterium is used as the gas envelope Activated charcoal produces the graphite like hexagonal crystal structure that formats the magnetic field to the proper specific moire patterning of a monopole magnetic field. The basic chemical structure of activated carbon is closely approximated by the structure of pure graphite. The graphite crystal is composed of layers of fused hexagons held by weak van de Waals forces. The layers are held by carbon–carbon bonds. It is the specific shape of the magnetic field that causes the nucleons (protons and neutrons) to decay when the applied patterned magnetic field produces CP violation in a resonant EMF based reaction. Various other people use other hexagonal crystals to filter the magnetic fields. Rossi has used mica, and Etiam Inc. has used quartz. http://pages.csam.montclair.edu/~kowalski/cf/246vysotskii.html A sheet of mica near a radioactive source changes the gamma decay probability It is important to note that Holmlid uses graphite as a catalyst component in the formation of D(0). Potassium (provides Rydberg blockade) and iron oxide (provides nanocavities) are also part of the catalyst. Holmlid also mentions that it takes some time to charge up the D(0) before it is able to produce mesons. Also, the iron oxide catalyst will produce mesons for weeks after it has been used in and experiment because the D(0) spin wave has been charged up to a sufficient energy holding level to be self-sustaining as it sends muons out to gather in more entangled nuclear reaction energy from catalyzed fusion events.