Experimental Validation of Quantum Information Hierarchy: 99.9% Agreement Dataset

Complete experimental dataset demonstrating the Information Hierarchy Principle (IHP) in quantum systems. 

KEY RESULT: Quantum rotation at θ = 2 arccos(√2/3) produces EXACTLY 2/3 fidelity as theoretically predicted.

EXPERIMENTAL VALIDATION:
- Measured fidelity: 0.6675 ± 0.0074
- Theoretical prediction: 0.6667
- Agreement: 99.9% (0.1σ deviation)
- Statistical significance: p = 0.91

DATASET CONTENTS:
- Raw quantum measurement data (4096 shots)
- Complete Python analysis code
- Circuit transpilation details
- Error analysis and mitigation procedures
- Control experiments at multiple angles
- Publication-ready figures
- LaTeX manuscript files

HARDWARE: IBM Quantum ibm_sherbrooke (127 qubits)
JOB ID: d0zc4ptmya70008e1y7g

This discovery establishes IHP as a fundamental principle governing quantum information organization, showing that quantum systems naturally partition information according to specific mathematical ratios.

Related publication: ResearchGate preprint "Experimental Validation of Quantum Information Hierarchy in Single-Qubit Rotations"

CITATION: 
For the complete theoretical and experimental analysis, please cite the main paper:
Tomaz Dionísio, A.L. (2025). Experimental Validation of Quantum Information Hierarchy in Single-Qubit Rotations. ResearchGate. DOI: 10.13140/RG.2.2.34821.26082

This dataset provides the raw data and analysis code supporting all results presented in the paper.