Physics:Quantum data analysis/Analysing ROOT trees: Difference between revisions
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{{Short description|Analysing ROOT trees in particle-physics data analysis}} | {{Short description|Analysing ROOT trees in particle-physics data analysis}} | ||
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<div style="font-size:90%;">Analysing ROOT trees represented as a compact particle-physics data analysis workflow.</div> | <div style="font-size:90%;">Analysing ROOT trees represented as a compact particle-physics data analysis workflow.</div> | ||
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Revision as of 15:53, 17 May 2026
Analysing ROOT trees represented as a compact particle-physics data analysis workflow.
See also
Table of contents (60 articles)
Index
Foundations and experiments
Analysis, measurements and discovery
Full contents
1. Introduction to Particle Physics (5) Back to index
2. Nuts and Bolts (4) Back to index
3. Overview of Particle Collision Experiments (3) Back to index
4. Collision Kinematics and Complex Observables (8) Back to index
5. Basic Measurements (4) Back to index
6. Data Acquisition Electronics and Systems (1) Back to index
7. Event Reconstruction (3) Back to index
8. Monte Carlo Simulations (4) Back to index
9. General Statistical Methods and Data Visualisation (6) Back to index
10. Standard Model Measurements (6) Back to index
11. Searches for New Physics (4) Back to index
12. Data Processing Techniques (4) Back to index
13. Fit Optimisation Techniques (4) Back to index
14. Advanced Data Comprehension Techniques (3) Back to index
15. Machine Learning (1) Back to index
60. Machine Learning
References
Author: Sergei V. Chekanov
Author: Claude Pruneau
Author: Harold Foppele
Source attribution: Physics:Quantum data analysis/Analysing ROOT trees