# Measurements of UHECR Mass Composition by Telescope Array

**Authors:** William Hanlon

arXiv: 1812.05688 · 2019-06-12

## TL;DR

The Telescope Array's nine-year $X_{	ext{max}}$ data analysis provides the most extensive measurement of ultra high energy cosmic ray composition, employing a morphological test to compare observations with models and explore systematic uncertainties.

## Contribution

This work introduces a morphological agreement test for $X_{	ext{max}}$ data, enhancing the analysis of UHECR composition beyond traditional moments and addressing systematic uncertainties.

## Key findings

- Data consistent with multiple elemental compositions.
- Use of morphological test improves systematic uncertainty assessment.
- Results support current models of UHECR composition.

## Abstract

Telescope Array (TA) has recently published results of nearly nine years of $X_{\mathrm{max}}$ observations providing its highest statistics measurement of ultra high energy cosmic ray (UHECR) mass composition to date for energies exceeding $10^{18.2}$ eV. This analysis measured agreement of observed data with results expected for four different single elements. Instead of relying only on the first and second moments of $X_{\mathrm{max}}$ distributions, we employ a morphological test of agreement between data and Monte Carlo to allow for systematic uncertainties in data and in current UHECR hadronic models. Results of this latest analysis and implications of UHECR composition observed by TA are presented. TA can utilize different analysis methods to understand composition as both a crosscheck on results and as a tool to understand systematics affecting $X_{\mathrm{max}}$ measurements. The different analysis efforts underway at TA to understand composition are also discussed.

## Full text

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## Figures

25 figures with captions in the complete paper: https://tomesphere.com/paper/1812.05688/full.md

## References

16 references — full list in the complete paper: https://tomesphere.com/paper/1812.05688/full.md

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Source: https://tomesphere.com/paper/1812.05688