Astro-COLIBRI 对比 Cosmic Ray Detector SORAMAME 的使用情况和统计数据
Flares of known astronomical sources and new transient phenomena occur on different timescales, from sub-seconds to several days or weeks. The discovery potential of both serendipitous observations and multi-messenger and multi-wavelength follow-up observations could be maximized with a tool which allows for quickly acquiring an overview over both persistent sources as well as transient events in the relevant phase space. Astro-COLIBRI's architecture comprises a RESTful API, a real-time database, a cloud-based alert system and a website as well as an app as clients for users. The structure of Astro-COLIBRI is optimized for performance and reliability and exploits concepts such as multi-index database queries, a global content delivery network (CDN), and direct data streams from the database to the clients to allow for a seemless user experience. Astro-COLIBRI evaluates incoming VOEvent messages of astronomical observations in real time, filters them by user specified criteria and puts them into their MWL and MM context. The clients provide a graphical representation with an easy to grasp summary of the relevant data to allow for the fast identification of interesting phenomena and provides an assessement of observing conditions at a large selection of observatories around the world.
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Cosmic rays are important targets of observation that can provide insights into the origins of the universe and high-energy astrophysical phenomena. Traditionally, their detection has required specialized and expensive equipment. Focusing on the characteristics of CMOS image sensors installed in smartphones and tablets, we developed the app “Soramame”, which enables simplified cosmic ray detection using general consumer devices.
When high-energy charged particles from space strike the CMOS sensor, they generate tiny amounts of electrical charge. The Soramame app captures these signals as images and visualizes them in real time. The detected data is also transmitted to a cloud server, allowing users to view events detected by others via a shared web platform.
Because Soramame allows cosmic ray detection without specialized equipment, it is highly suitable for educational use. Since detection relies on rare and spontaneous events, long-term observation is important. We encourage the use of unused smartphones or tablets to enable continuous data collection.
From an educational perspective, the ability to detect and observe invisible cosmic rays with one's own hands deepens understanding of physical phenomena and fosters scientific curiosity. By altering conditions such as altitude, shielding, and time of day, students can collect and compare data, making the app suitable for inquiry-based learning and data-driven science education.
The app also includes a data sharing feature, allowing users to compare observations from different regions. This enables collaborative learning and supports citizen science activities. In the future, we plan to enhance detection accuracy, integrate more closely with educational curricula, and improve data analysis features to further increase the app's educational value.
Soramame is developed by the Hibino Laboratory, Department of Applied Physics, Faculty of Engineering, Kanagawa University. We hope it will serve as a tool that bridges research and education, and that it helps deepen public understanding and interest in science.
https://soramame.n.kanagawa-u.ac.jp/en/
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Astro-COLIBRI VS. 
Cosmic Ray Detector SORAMAME十二月 9, 2025