Present status of PICOLON project
K. Fushimi, D. Chernyak, H. Ejiri, K. Hata, R. Hazama, T. Iida, H., Ikeda, K. Imagawa, K. Inoue, H. Ito, T. Kisimoto, M. Koga, K. Kotera, A., Kozlov, S. Kurosawa, K. Nakamura, R. Orito, A. Sakaguchi, A. Sakaue, T., Shima, Y. Takaku, Y. Takemoto, S. Umehara, Y. Urano, Y. Yamamoto
TL;DR
This paper reviews the current status of the PICOLON project, focusing on the use of inorganic crystal scintillators in detecting dark matter and neutrino properties, highlighting their potential as high-purity detectors.
Contribution
It introduces the application of large-volume, high-purity inorganic crystal scintillators in dark matter and neutrino research, emphasizing their promising capabilities.
Findings
Inorganic crystal scintillators are effective for dark matter detection.
High-purity crystals enhance sensitivity to neutrino properties.
The PICOLON project advances detector technology for cosmology and particle physics.
Abstract
The existence of cosmic dark matter and neutrino properties are long-standing problems in cosmology and particle physics. These problems have been investigated by using radiation detectors. We will discuss the application of inorganic crystal scintillators to studies on dark matter and neutrino properties. A large volume and high-purity inorganic crystal is a promising detector for investigating dark matter and neutrino.
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Taxonomy
TopicsSpacecraft Design and Technology · Parallel Computing and Optimization Techniques