Giga fine-structure constant in photonic solitons

Abstract

We report on the flavour physics of mesoscopic instantons found primarily in a pure Nb metal, doped magnetically by long-lived Mossbauer 93mNb gamas. A giga fine-structure constant NI*alpha characterizes various properties of the soliton, in which NI ~ 3 * 1010 is the instanton number. A hierarchy of photonic solitons is classified into six flavours, i.e., three generations in each of two homotopy classes. The underdoped metallic heterostructure contains two topologically distinct sectors. When the gama-dopant filling factor > 0.88, the nontrivial sector becomes a chiral superfluid at T >> 300 K to provide a gama-clock Q-factor > 1027 for some decades, while the trivial sector becomes a superconductor below 9.3 K. Distinct soliton flavours carrying Kopnin masses > 14 PeV, Majorana mass < 36 aeV, and nuclear B > 35000 T imply a range of possible applications, e.g., topological quantum computation and the detection of invisible particles.

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