Interference effects in resonant standard model di-Higgs production and decay into 4b final states: the role of machine learning analysis
Interference effects in resonant standard model di-Higgs production and decay into 4b final states: the role of machine learning analysis
The final state with four b-quarks has generally the largest event rate in Standard Model (SM)-like Higgs (hSM) pair production, but also the largest backgrounds. We study such a final state using the gg → hSMhSM production mechanism and Benchmarks Points (BPs) derived from the Next-to-Minimal Supersymmetric SM (NMSSM) in the boosted case, leading to two (fat) ’Higgs jets’. To suppress the backgrounds we use a combination of both kinematical cuts and jet substructure features exploiting Machine Learning (ML) analysis. We simulate the signal BPs both with and without the interference of the resonants-channel diagram with the non-resonant topologies emerging from both the SM and NMSSM. The ML architecture of choice here is based on a multimodal Transformer, which performs significantly better than traditional ML algorithms, in two respects: firstly, it enables to achieve higher significances and, secondly, it adapts better to the analysis dataset with interferences even if it was trained on one without these. However, neglecting the effect of the latter in experimental searches could lead to grossly mistaken results.
hep-ph, hep-ex
Hammad, A.
21309fb7-4f5f-4f73-b807-f82063513911
Moretti, S.
b57cf0f0-4bc3-4e02-96e3-071255366614
Przybyl, A.P.
379cb5c1-8abf-454c-bc03-45aac4aa74d8
Waltari, H.
40b64912-03e3-4ed9-b3cd-b1951ab9b883
Hammad, A.
21309fb7-4f5f-4f73-b807-f82063513911
Moretti, S.
b57cf0f0-4bc3-4e02-96e3-071255366614
Przybyl, A.P.
379cb5c1-8abf-454c-bc03-45aac4aa74d8
Waltari, H.
40b64912-03e3-4ed9-b3cd-b1951ab9b883
[Unknown type: UNSPECIFIED]
Abstract
The final state with four b-quarks has generally the largest event rate in Standard Model (SM)-like Higgs (hSM) pair production, but also the largest backgrounds. We study such a final state using the gg → hSMhSM production mechanism and Benchmarks Points (BPs) derived from the Next-to-Minimal Supersymmetric SM (NMSSM) in the boosted case, leading to two (fat) ’Higgs jets’. To suppress the backgrounds we use a combination of both kinematical cuts and jet substructure features exploiting Machine Learning (ML) analysis. We simulate the signal BPs both with and without the interference of the resonants-channel diagram with the non-resonant topologies emerging from both the SM and NMSSM. The ML architecture of choice here is based on a multimodal Transformer, which performs significantly better than traditional ML algorithms, in two respects: firstly, it enables to achieve higher significances and, secondly, it adapts better to the analysis dataset with interferences even if it was trained on one without these. However, neglecting the effect of the latter in experimental searches could lead to grossly mistaken results.
Text
2512.12318v1
- Author's Original
More information
Accepted/In Press date: 13 December 2025
Keywords:
hep-ph, hep-ex
Identifiers
Local EPrints ID: 508644
URI: http://eprints.soton.ac.uk/id/eprint/508644
PURE UUID: 43e6cff1-75a5-4bca-818b-5f85f604a9cc
Catalogue record
Date deposited: 28 Jan 2026 18:00
Last modified: 29 Jan 2026 02:55
Export record
Altmetrics
Contributors
Author:
A. Hammad
Author:
A.P. Przybyl
Author:
H. Waltari
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
