Super-\v{C}erenkov Radiation as New Exotic Decay in Refractive Media

TL;DR

This paper explores generalized Super-;erenkov Radiations as a new type of exotic decay in various media, presenting theoretical conditions and experimental evidence from BNL data that suggest anomalous ;erenkov rings.

Contribution

It introduces two natural super-;erenkov coherence conditions and interprets experimental anomalous rings as evidence for a high-energy component of S;erenkov radiation.

Findings

Two super-;erenkov coherence conditions identified

Experimental data from BNL supports super-;erenkov signatures

Anomalous ;erenkov rings linked to high-energy S;erenkov component

Abstract

Generalized Super-\v{C}erenkov Radiations (S\v{C}R), as well as their S\v{C}R-signatures are investigated. Two general S\v{C}R-coherence conditions are found as two natural extremes of the same spontaneous particles decays in (dielectric, nuclear or hadronic) media. The main results on the experimental test of the super-coherence conditions, obtained by using the experimental data from BNL, are presented. The interpretation of the observed anomalous \v{C}erenkov rings as experimental evidence for the HE-component of the S\v{C}R is discussed.