Luminosity Spectrum Reconstruction at Linear Colliders
Abstract
A good knowledge of the luminosity spectrum is mandatory for many measurements at future e+e- colliders. As the beam-parameters determining the luminosity spectrum cannot be measured precisely, the luminosity spectrum has to be measured through a gauge process with the detector. The measured distributions, used to reconstruct the spectrum, depend on Initial State Radiation, cross-section, and Final State Radiation. To extract the basic luminosity spectrum, a parametric model of the luminosity spectrum is created, in this case the spectrum at the 3 TeV Compact Linear Collider (CLIC). The model is used within a reweighting technique to extract the luminosity spectrum from measured Bhabha event observables, taking all relevant effects into account. The centre-of-mass energy spectrum is reconstructed within 5% over the full validity range of the model. The reconstructed spectrum does not result in a significant bias or systematic uncertainty in the exemplary physics benchmark process of smuon pair production.
Cite
@article{arxiv.1309.0372,
title = {Luminosity Spectrum Reconstruction at Linear Colliders},
author = {Stéphane Poss and André Sailer},
journal= {arXiv preprint arXiv:1309.0372},
year = {2015}
}
Comments
Version accepted by EPJC. Minor changes