Springer : New physics at Tera-$Z$: precision renormalised

Allwicher, Lukas; Renner, Sophie; McCullough, Matthew

doi:10.1007/JHEP02(2025)164

Article
Report number	arXiv:2408.03992 ; CERN-TH-2024-133 ; ZU-TH 39/24
Title	New physics at Tera-$Z$: precision renormalised
Author(s)	Allwicher, Lukas (Zurich U.) ; McCullough, Matthew (CERN) ; Renner, Sophie (Glasgow U.)
Publication	2025
Imprint	2024-08-07
Number of pages	26
In:	JHEP 2502 (2025) 164
DOI	10.1007/JHEP02(2025)164
Subject category	hep-ph ; Particle Physics - Phenomenology
Abstract	We study the power of a Tera-$Z$ run at FCC-ee for indirectly detecting or constraining heavy new physics. Our main finding is that nearly every new particle which matches at tree level to dimension-six operators of the Standard Model Effective Field Theory (SMEFT) affects electroweak precision observables (EWPOs) at either tree level or via one loop renormalisation group (RG) running. This is true almost regardless of the structure of couplings to the Standard Model; just a handful of exceptions are identified which can produce zeroes in the EWPO RG equations. Under simple flavour assumptions, we perform fits of each state to projected FCC-ee $Z$ pole measurements, showing that all scenarios can be tested at the TeV scale or better, with many projected exclusions reaching tens of TeV. Tera-$Z$ is argued to provide an almost inescapable probe of heavy new physics.
Copyright/License	preprint: (License: arXiv nonexclusive-distrib 1.0) publication: © 2025 The author(s) (License: CC-BY-4.0), sponsored by SCOAP³

$Schematic illustration showing that flavour violating operators are inevitably accompanied by flavour conserving operators within explicit UV completions. The tree level diagram on the left matches to the flavour violating 4-fermion coefficient $C^{e\mu b s}$, but by duplicating either one of the vertices, the flavour conserving coefficients $C^{e e\mu \mu}$ and $C^{bbss}$ are also generated from similar tree level diagrams.$ $Diagrams illustrating the tree level matching of scalars and vectors onto $\cC_{f_1 f_2}^{jjkk}$. Directions of fermion arrows on the leftmost two diagrams will depend on the gauge charges of the mediator.$ $Projected bounds (95\% CL) on the masses of new scalar fields. The vertical dashed lines separate fields which contribute to EWPOs at tree level (left), via one-loop RG evolution (middle), and via one-loop matching (right). The green and blue bars correspond to different assumptions for the coupling to SM fermions, as described near the start of Sec.~\ref{sec:fit}, while red bars are used when the state does not have couplings to fermions. Fields indicated with a $^{(*)}$ correspond to cases where the tree-level contribution has been set to zero by forbidding a specific coupling (see Table \ref{tab:scalars}). Hatched bars correspond to pure tree-level limits, without RG running.$ Show more plots

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