Ultra-dense protium p(l = 0) is superfluid at room temperature, as is its more often studied deuterium counterpart D(l = 0). p(l = 0) can be deposited on surfaces by a source which produces a stream of clusters. A magnetic field strongly influences the type of clusters formed. Very little of chain clusters of p(l = 0) and the closely related form p(l = 1) exists on the magnet surface or within 0.5 mm from the magnet surface. The removal of the p(l = 0) and p(l = 1) entity in strong magnetic fields is due to a Meissner effect as in the case of D(l = 0). Contrary to the case of D(l = 0), small symmetric p(l = 0) clusters formed by 3 and 4 hydrogen atoms are not left on the magnet pole face when the large chain-clusters lift in the magnetic field. Symmetric p(4)(l = 0) clusters are unlikely since four fermions cannot interact in this way. Instead, p(2) pairs are included as bosons in the chain cluster structure as observed previously.

• 出版日期2015-7