Proposing "b-Parity" - a New Approximate Quantum Number in Inclusive b-jet Production - as an Efficient Probe of New Flavor Physics

TL;DR

This paper introduces b-Parity, an approximate quantum number in inclusive b-jet production, which can serve as a sensitive indicator of new flavor physics beyond the Standard Model by exploiting differences in b-jet counting.

Contribution

The paper proposes b-Parity as a new approximate quantum number and demonstrates its potential as an efficient probe for detecting new flavor physics in lepton collider experiments.

Findings

b-Parity is approximately conserved in the Standard Model.

b-jet counting can effectively identify b-Parity violation.

b-Parity provides a simple method to detect new flavor physics signals.

Abstract

We consider the inclusive reaction \ell^+ \ell^- -> nb +X (n = number of b-jets) in lepton colliders for which we propose a useful approximately conserved quantum number b_P=(-1)^n that we call b-Parity (b_P). We make the observation that the Standard Model (SM) is essentially b_P-even since SM b_P-violating signals are necessarily CKM suppressed. In contrast new flavor physics can produce b_P=-1 signals whose only significant SM background is due to b-jet misidentification. Thus, we show that b-jet counting, which relies primarily on b-tagging, becomes a very simple and sensitive probe of new flavor physics (i.e., of b_P-violation).