Generalized Super-Cerenkov Radiations in Nuclear and Hadronic Media

TL;DR

This paper investigates generalized Super-Cerenkov Radiation phenomena in various media, introduces new concepts like SCR-gluons and SCR-bosons, and presents experimental and theoretical insights, including potential signatures in RHIC data.

Contribution

It introduces a unified framework for Super-Cerenkov Radiation in nuclear and hadronic media, including new particle concepts and experimental validation.

Findings

Identification of two natural coherence conditions for SCR

First experimental test of super-coherence conditions using BNL data

Proposal of SCR-gluons and SCR-bosons as new radiation types

Abstract

Generalized Super-Cerenkov Radiations (SCR), as well as their SCR-signatures are investigated and classified. Two general SCR- coherence conditions are found as two natural extremes of the same spontaneous particles decay in (dielectric, nuclear or hadronic) media The main results on the quantum theory of the SCR-phenomena as well as the results of the first experimental test of the super-coherence conditions, obtained by using the experimental data from BNL are presented. The new concepts such as: SCR-gluons, SCR-W-bosons and SCR-Z-bosons, all three suggested by elementary particle classification, are introduced. The gluonic Super-Cerenkov-like radiation, first introduced here, is schematically described. The interpretation of some recent RHIC results as signature of the SCR-gluons is suggested.