超分辨光存储峰值功率密度数据

超分辨光存储峰值功率密度测试数据与“考核指标2.3在纳米复合材料中降低超分辨光存储峰值功率密度”相对应，是课题2研究内容3研究产生的科学数据，并支撑“考核指标2.5专利及考核指标2.6论文”。 （1）数据内容：该数据集为纳米材料在搭建的双光束光存储系统中峰值功率密度测试过程中产生的数据，包括双光束光存储系统整体图片和主要模块、纳米材料抑制曲线原始数据以及优化后的数据、纳米材料成像原始图像数据、纳米材料成像测试过程中的软件截图。 （2）数据类型：图片、文件。 （3）数据量：5.54 MB。 （4）采集方案：双光束光存储系统整体图片的整体图片由手机相机拍摄获得。纳米材料抑制数据由功率计以及单光子雪崩探测器采集，最终抑制曲线通过Origin软件绘制所得。纳米材料成像通过纳米位移台扫描和单光子雪崩探测器信号采集获得。纳米材料成像测试过程中的软件截图由Window系统自带截图软件获得。 （5）采集地点：上海理工大学 （6）采集时间：2021年12月-2024年11月。 （7）采集设备：双光束光存储系统整体图片数据由手机相机（华为Mate20）采集，纳米材料抑制曲线数据由功率计(PM100D)和单光子雪崩二极管(Count T100-FC)采集，纳米材料成像由自行搭建的双光束光存储系统采集，纳米材料成像测试过程中的软件截图由系统自制软件采集并通过Windows自带截图软件截取。

The peak power density test data for super-resolution optical storage corresponds to Assessment Index 2.3 (Reducing the peak power density of super-resolution optical storage in nanocomposites). This is scientific data generated from Research Content 3 of Task 2, and supports Assessment Index 2.5 (patents) and Assessment Index 2.6 (papers). (1) Data Content: This dataset includes data generated during the peak power density test of nanomaterials in a custom-built dual-beam optical storage system, covering overall images and main modules of the dual-beam optical storage system, raw and optimized data of nanomaterial suppression curves, raw imaging data of nanomaterials, and software screenshots captured during the nanomaterial imaging test. (2) Data Types: Images, documents. (3) Data Volume: 5.54 MB. (4) Data Collection Protocol: The overall images of the dual-beam optical storage system were captured using a smartphone camera. Nanomaterial suppression data was collected with a power meter and a single-photon avalanche detector, and the final suppression curves were plotted using Origin software. Nanomaterial imaging was obtained via nanopositioning stage scanning and signal acquisition with a single-photon avalanche detector. Software screenshots during the nanomaterial imaging test were captured using the built-in screenshot tool of the Windows operating system. (5) Collection Location: University of Shanghai for Science and Technology. (6) Collection Period: December 2021 to November 2024. (7) Data Collection Equipment: Overall images of the dual-beam optical storage system were collected using a Huawei Mate20 smartphone camera. Nanomaterial suppression curve data was collected using a power meter (Model PM100D) and a single-photon avalanche diode (Model Count T100-FC). Nanomaterial imaging was collected using a custom-built dual-beam optical storage system. Software screenshots during the nanomaterial imaging test were captured using the system's self-developed software and the built-in Windows screenshot tool.