Data underlying the publication "Nonlinear Quantum Photonics with a Tin-Vacancy Center Coupled to a One-Dimensional Diamond Waveguide"

Data underlying the research article "Nonlinear Quantum Photonics with a Tin-Vacancy Center Coupled to a One-Dimensional Diamond Waveguide".In this physics experiment we fabricate a device consisting of tin-vacancy color centers in a diamond nanophotonic waveguide and investigate the interaction with light at the single-photon level by spectroscopy and photon correlation measurements.<br>The dataset contains the measured and simulated data and the jupyter notebooks to extract and reproduce the figures shown in the main text and appendix. The measurements are conducted with the Python 3 framework Quantum Measurement Interface (QMI) and data is collected with Python-based data acquisition framework Quantify. The measured, analyzed and simulated data is stored in individual hdf5 files. Fit results of individual datasets are collected in json files.Please see the README.md file for more information on the datasets and instructions on how to reproduce the figures.

本数据集支撑研究论文《与一维金刚石波导耦合的锡空位中心非线性量子光子学》（Nonlinear Quantum Photonics with a Tin-Vacancy Center Coupled to a One-Dimensional Diamond Waveguide）。本项物理实验制备了一款集成金刚石纳米光子波导内锡空位色心的器件，并借助光谱学与光子关联测量技术，研究了单光子量级下光与该器件的相互作用。 本数据集包含实测与仿真数据，以及用于提取并复现正文与附录中所有展示图表的Jupyter笔记本（Jupyter Notebook）。本次测量基于Python 3框架量子测量接口（Quantum Measurement Interface，QMI）开展，数据采集则依托基于Python的Quantify数据采集框架完成。实测、分析与仿真数据均存储于独立的HDF5文件中，各数据集的拟合结果汇总于JSON文件内。如需了解数据集详情及图表复现操作指南，请参阅README.md文件。