Experimental prospects for C, P, T, CP, and CPT tests

TL;DR

This paper reviews experimental approaches to testing discrete symmetries C, P, T, CP, and CPT in particle physics, focusing on methods like triple product asymmetries and entangled meson systems to understand fundamental symmetry violations.

Contribution

It discusses new experimental prospects and methodologies for studying discrete symmetry violations, emphasizing the use of entangled meson systems and asymmetry measurements.

Findings

Potential for improved sensitivity in symmetry violation tests

Use of entangled meson systems enhances measurement precision

Triple product asymmetries provide new avenues for exploration

Abstract

Discrete symmetry violation in the weak interaction is central to the Standard Model of particle physics, however the origin of these violations is not well understood. Nor are we able to provide a satisfactory explanation of the Universal dominance of matter over antimatter, an issue related to CP violation. As a result study of discrete symmetry violation remains a topic of broad interest. These proceedings discuss experimental prospects of studying C, P, T, CP and CPT symmetries in a number of contexts, including the use of triple product asymmetries and entangled neutral meson systems.