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An experiment to search for dark-matter interactions using sodium iodide detectors
- An experiment to search for dark-matter interactions using sodium iodide detectors
- Adhikari, Govinda; Adhikari, Pushparaj; de Souza, Estella Barbosa; Carlin, Nelson; Choi, Seonho; Djamal, Mitra; Ezeribe, Anthony C.; Ha, Chang Hyon; Hahn, Insik; Hubbard, Antonia J. F.; Jeon, Eunju; Jo, Jay Hyun; Joo, Hanwool; Kang, Woon Gu; Kang, Woosik; Kauer, Matthew; Kim, Bonghee; Kim, Hongjoo; Kim, Hyounggyu; Kim, Kyungwon; Kim, Nam Young; Kim, Sun Kee; Kim, Yeongduk; Kim, Yong-Hamb; Ko, Young Ju; Kudryavtsev, Vitaly A.; Lee, Hyun Su; Lee, Jaison; Lee, Jooyoung; Lee, Moo Hyun; Leonard, Douglas S.; Lynch, Warren A.; Maruyama, Reina H.; Mouton, Frederic; Olsen, Stephen L.; Park, Byungju; Park, Hyang Kyu; Park, Hyeonseo; Park, Jungsic; Park, Kangsoon; Pettus, Walter C.; Prihtiadi, Hafizh; Ra, Sejin; Rott, Carsten; Scarff, Andrew; Shin, Keon Ah; Spooner, Neil J. C.; Thompson, William G.; Yang, Liang; Yong, Seok Hyun; COSINE-100 Collaboration
- Ewha Authors
- SCOPUS Author ID
- Issue Date
- Journal Title
- NATURE vol. 564, no. 7734, pp. 83 - +
- NATURE PUBLISHING GROUP
- SCI; SCIE; SCOPUS
- Document Type
- Observations of galaxies and primordial radiation suggest that the Universe is made mostly of non-luminous dark matter(1,2). Several new types of fundamental particle have been proposed as candidates for dark matter(3), such as weakly interacting massive particles (WIMPs)(4,5). These particles would be expected to interact with nuclei in suitable detector materials on Earth, for example, causing them to recoil. However, no definitive signal from such dark-matter interactions has been detected despite concerted efforts by many collaborations(6). One exception is the much-debated claim by the DAMA collaboration of a statistically significant (more than nine standard deviations) annual modulation in the rate of nuclear interaction events. Annual modulation is expected because of the variation in Earth's velocity relative to the Galaxy's dark-matter halo that arises from Earth's orbital motion around the Sun. DAMA observed a modulation in the rate of interaction events in their detector(7-9) with a period and phase consistent with that expected for WIMPs(10-12). Several groups have been working to develop experiments with the aim of reproducing DAMA's results using the same target medium (sodium iodide)(13-17). To determine whether there is evidence for an excess of events above the expected background in sodium iodide and to look for evidence of an annual modulation, the COSINE-100 experiment uses sodium iodide as the target medium to carry out a model-independent test of DAMA's claim. Here we report results from the initial operation of the COSINE-100 experiment related to the first task(18,19). We observe no excess of signal-like events above the expected background in the first 59.5 days of data from COSINE-100. Assuming the so-called standard dark-matter halo model, this result rules out WIMP-nucleon interactions as the cause of the annual modulation observed by the DAMA collaboration(20-23). The exclusion limit on the WIMP-sodium interaction cross-section is 1.14 x 10(-40) cm(2) for 10-GeV c(-2) WIMPs at a 90% confidence level. The COSINE-100 experiment will continue to collect data for two more years, enabling a model-independent test of the annual modulation observed by the DAMA collaboration.
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