Cyclic unparticle physics

TL;DR

This paper introduces cyclic unparticle physics, where non-conformal scale-invariant theories cause oscillating correlation functions that significantly alter standard model processes, with detailed calculations provided.

Contribution

It presents the concept of cyclic unparticle physics and derives formulas for phase spaces and amplitudes involving cyclunparticles, a novel theoretical framework.

Findings

Oscillating correlation functions in non-conformal theories affect standard model interactions

Derived explicit formulas for cyclunparticle phase space and exchange amplitudes

Demonstrated the impact of cyclic unparticles through a simple example

Abstract

We explore phenomenological consequences of coupling a non-conformal scale-invariant theory to the standard model. We point out that, under certain circumstances, non-conformal scale-invariant theories have oscillating correlation functions which can dramatically modify standard model processes. We dub this scenario cyclic unparticle physics, or simply cyclunparticle physics. We compute phase spaces and amplitudes associated with final state cyclunparticle and cyclunparticle exchange, respectively. We show detailed formulae in a simple example.