CC BY 4.0Zahn, DanielaWeber, JohannesKlopf, FrankTaubenberger, Samuel MatthewSamuel MatthewTaubenberger2024-12-182024-12-182024-08-01https://doi.org/10.24406/publica-3932https://publica.fraunhofer.de/handle/publica/47986710.24406/publica-3932Superconducting qubits are a promising candidate for practical quantum computing. This thesis describes the integration of a custom experimental setup with a sophisticated software framework to enable thorough exploration of qubit properties. The experiments conducted include the characterization of Rabi oscillations, T1 relaxation time, T∗2 dephasing time, Chevron plot analysis, state discrimination, and single-qubit randomized benchmarking. Key matrices such as the readout fidelity, gate fidelity and qubit temperature are derived from these experiments. Additionally, detailed guidelines for optimal experiment execution and hardware-level optimizations, including parameter calibration and tuning, are provided.enbachelor thesis