Skip to main content

Standard Model

These notebooks dive into the world of Standard Model searches, exploring the fundamental particles and forces that constitute the universe as described by the Standard Model of particle physics. Through these analyses, we aim to test the predictions of the Standard Model, enhancing our understanding of the universe.

Jupyter Notebooks

Uproot


Higgs to ZZ NEW

This notebook uses the 2025 release of the ATLAS Open Data to show you the steps to rediscover the Higgs boson yourself! You will discover the Higgs boson decaying into a pair of Z bosons, which are in turn decaying into a lepton-antilepton pair each.

Binder Colab


Higgs to γγ analysis NEW

This notebook uses the 2025 release of ATLAS Open Data, with 36.1 fb1^{-1}, to show you the steps to rediscover the Higgs boson yourself! You will discover the Higgs boson decaying into two photons.

Binder Colab


Find the Z boson NEW

This notebook guides you through finding the Z boson in events with two muons. It gives you a variety of possible extensions to explore these events, understand more about the Z boson, identify other Standard Model particles, or search for new particles.

Binder Colab


Higgs boson to Muon-Antimuon Pair NEW

Using the 2025 release of ATLAS Open Data, this notebook walks you through the process of rediscovering Higgs-boson production via its decay into a muon–antimuon pair..

Binder Colab


Searching for top-antitop quark pairs NEW

This notebook uses 2025 release of the ATLAS Open Data to guide you through the steps needed to rediscover the production of top-antitop quark pairs.

Binder Colab


WZ to three leptons NEW

This notebook uses the 2025 release of ATLAS Open Data, with 36.1 fb1^{-1}, to show you the steps to find events where a W- and a Z-boson have been produced and decayed into lepton-neutrino and lepton-antilepton pairs, respectively! You will be able to reconstruct the mass of both the W- and the Z-boson using both electrons and muons.

Binder Colab