实现具备指数加速效果的量子算法实验数据

利用金刚石中的电子自旋与核自旋作为两量子比特体系，实现了室温固态自旋可编程量子处理器。通过设计出的一类普适量子线路，利用一系列高精度的微波与射频脉冲序列，可以将一系列量子算法的执行转化成为相应的微波和射频脉冲的幅度和相位参数。在可编程量子处理器上成功运行了Deutsch-Jozsa 算法和Grover 搜索算法，算法的成功率超过80%。实验数据包括量子线路设计，实现的Deutsch-Jozsa 算法和Grover 搜索算法成功率测试结果。数据集内容：基于金刚石色心体系实现量子算法的测试数据，内含1 个数据集说明文件，1 个论文，1 个图片，1 个.mat 格式数据，1 个.txt 格式数据，1 个.m 格式数据。采集方案：利用金刚石中的电子自旋与核自旋作为两量子比特体系，构建室温固态自旋可编程量子处理器， 并在其上运行Deutsch-Jozsa 算法和Grover 搜索算法。设备情况：实验数据是在自主搭建的微观磁共振平台上完成采集。其主要包括共聚焦模块、脉冲式微波射频模块、电子学控制、同步和数据采集模块组成；核心原理为通过共聚焦、微波射频模块对金刚石单自旋施加外部激励，实现量子控制。

We realized a room-temperature solid-state spin programmable quantum processor using electron spins and nuclear spins in diamond as a two-qubit system. By designing a class of universal quantum circuits, the execution of a series of quantum algorithms can be converted into the amplitude and phase parameters of corresponding microwave and radio frequency (RF) pulse sequences via a series of high-precision microwave and RF pulses. We successfully ran the Deutsch-Jozsa algorithm and Grover's search algorithm on this programmable quantum processor, with the success rates of both algorithms exceeding 80%. The experimental data includes quantum circuit designs and the success rate test results for the implemented Deutsch-Jozsa algorithm and Grover's search algorithm. Dataset description: This dataset holds test data for quantum algorithms implemented based on diamond color center systems, containing 1 dataset description document, 1 academic paper, 1 image file, 1 file in .mat format, 1 file in .txt format, and 1 file in .m format. Data collection scheme: A room-temperature solid-state spin programmable quantum processor was constructed using electron spins and nuclear spins in diamond as a two-qubit system, on which the Deutsch-Jozsa algorithm and Grover's search algorithm were executed. Equipment setup: The experimental data was collected on a self-built microscopic magnetic resonance platform, which mainly comprises a confocal module, a pulsed microwave and RF module, an electronics control subsystem, and a synchronization and data acquisition module. The core principle is to apply external excitation to single spins in diamond via the confocal and microwave/RF modules to realize quantum control.