# Alternative coalescence model for deuteron, tritium, helium-3 and their   antinuclei

**Authors:** M. Kachelriess, S. Ostapchenko, J. Tjemsland

arXiv: 1905.01192 · 2020-01-15

## TL;DR

This paper introduces a microscopic coalescence model combining Monte Carlo simulations and Wigner function representations to improve predictions of antinuclei production, relevant for dark matter detection, with a universal parameter fitted to collider data.

## Contribution

It presents a new coalescence model integrating microscopic details and momentum correlations, fixed by collider data, enhancing the accuracy of antinuclei production predictions.

## Key findings

- Model accurately describes antinuclei production in collider experiments.
- Single universal parameter effectively fits multiple reaction types.
- Improved microscopic understanding of antinuclei formation processes.

## Abstract

Antideuteron and antihelium nuclei have been proposed as a detection channel for dark matter annihilations and decays in the Milky Way, due to the low astrophysical background expected. To estimate both the signal for various dark matter models and the astrophysical background, one employs usually the coalescence model in a Monte Carlo framework. This allows one to treat the production of antinuclei on an event-by-event basis, taking thereby into account momentum correlations between the antinucleons involved in the process. This approach lacks however an underlying microscopic picture, and the numerical value of the coalescence parameter obtained from fits to different reactions varies considerably. Here we propose instead to combine event-by-event Monte Carlo simulations with a microscopic coalescence picture based on the Wigner function representations of the produced antinuclei states. This approach allows us to include in a semi-classical picture both the size of the formation region, which is process dependent, and momentum correlations. The model contains a single, universal parameter which is fixed by fitting the production spectra of antideuterons in proton-proton interactions, measured at the Large Hadron Collider. Using this value, the model describes well the production of various antinuclei both in electron-positron annihilation and in proton-proton collisions.

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/1905.01192/full.md

## References

50 references — full list in the complete paper: https://tomesphere.com/paper/1905.01192/full.md

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Source: https://tomesphere.com/paper/1905.01192