%0 Generic
%A Zwanenburg, Martijn
%A Singh, Siddharth
%A Huang, Eugene
%A Yilmaz, Figen
%A Stefanski, Taryn
%A Hu, Jinlun
%A Kumaravadivel, Piranavan
%A Andersen, Christian Kraglund
%D 2025
%T Data underlying the publication: Single Qubit Gates Beyond the Rotating-Wave Approximation for Strongly Anharmonic Low-Frequency Qubits
%U 
%R 10.4121/4e5a545d-436b-4d59-86d2-61506ccaf3cf.v1
%K rotating-wave approximation
%K single-qubit operations
%K superconducting qubit
%K quantum computing
%K quantum control
%X <p>Experimental and numerical data pertaining to the work titled "single-qubit microwave drives for low-frequency, strongly anharmonic qubits". The dataset consists of two parts: a numerical dataset and an experimental dataset. Every numerical simulation is stored in its own subfolder in the numerical dataset consisting of one JSON file and optional CSV files. All data was generated and analyzed using Python, and the relevant code is available in the GitHub repository accompanying the publication. The experimental dataset was measured using the QCoDeS and Quantify Python packages. Every experiment is stored in its own subfolder which contains the raw data as well as the process data which are stored in HDF5 files. The data folders also contain a large JSON file which stores the setpoints of all instruments in the experimental setup. The data folders may additionally contain figures that show the measured and/or analyzed data. All scripts that analyze the experimental data are also available in the GitHub repository accompanying the publication. The README file contains a more detailed description of the datasets.</p>
%I 4TU.ResearchData