# Multiparticle production in the large lambda n limit: Realising   Higgsplosion in a scalar QFT

**Authors:** Valentin V. Khoze

arXiv: 1705.04365 · 2018-06-14

## TL;DR

This paper uses semiclassical methods to analyze multiparticle production in a scalar quantum field theory, providing evidence that the Higgsplosion phenomenon could occur at high energies in the Higgs sector.

## Contribution

It extends semiclassical techniques to the ultra-high multiplicity regime, demonstrating the potential realization of Higgsplosion in a simplified scalar model.

## Key findings

- Computed leading contribution to multi-particle rate exponent at large  n
- Applied thin wall approximation for singular solutions in high-multiplicity limit
- Provided evidence supporting Higgsplosion in scalar theories with spontaneous symmetry breaking

## Abstract

In a scalar theory which we use as a simplified model for the Higgs sector, we adopt the semiclassical formalism of Son for computations of $n$-particle production cross-sections in the high-multiplicity $n\to \infty$ weak-coupling $\lambda \to 0$ regime with the value of $\lambda n$ held fixed and large. The approach relies on the use of singular classical solutions to a certain boundary value problem. In the past this formalism has been successfully used and verified in computations of perturbative multi-particle processes at tree-level, and also at the next-to-leading order level in the small $\lambda n$ expansion near the multi-particle mass threshold. We apply this singular solutions formalism in the regime of ultra-high multiplicities where $\lambda n \gg 1$, and compute the leading positive $\sim n\,\sqrt{\lambda n}$ contribution to the exponent of the multi-particle rate in this large $\lambda n$ limit. The computation is carried out near the multi-particle mass threshold where the multiplicity $n$ approaches its maximal value allowed by kinematics. This calculation relies on the idea of Gorsky and Voloshin to use a thin wall approximation for the singular solutions that resemble critical bubbles. This approximation is justified in precisely the high-multiplicity $\sqrt{\lambda n} \to \infty$ regime of interest. Based on our results we show that the scalar theory with a spontaneous symmetry breaking used here as a simplified model for the Higgs sector, is very likely to realise the high-energy Higgsplosion phenomenon.

## Full text

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## Figures

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## References

23 references — full list in the complete paper: https://tomesphere.com/paper/1705.04365/full.md

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