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DAMA/NaI

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The DAMA/NaI experiment[1][2] investigated the presence of dark matter particles in the galactic halo by exploiting the model-independent annual modulation signature. Based on the Earth's orbit around the Sun and the solar system's speed with respect to the center of the galaxy (which on short time scales can be considered constant), the Earth should be exposed to a higher flux of dark matter particles around June 1,[3] when its orbital speed is added to the one of the solar system with respect to the galaxy and to a smaller one around December 2, when the two velocities are subtracted. The annual modulation signature is distinctive since the effect induced by dark matter particles must simultaneously satisfy many requirements.

Description

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The experimental set-up was located deep underground in the Laboratori Nazionali del Gran Sasso in Italy.

The experimental set-up was made by nine 9.70 kg low-radioactivity scintillating thallium-doped sodium iodide crystals [NaI(Tl)]. Each crystal was faced by two low-background photomultipliers through 10 cm light guides. The detectors were installed inside a sealed copper box flushed with highly pure nitrogen in order to insulate the detectors from air that contains trace amounts of radon, a radioactive gas. To reduce the natural environmental background the copper box is enclosed inside a multicomponent multi-ton passive shield made of copper, lead, polyethylene/paraffin, cadmium foil. A plexiglas box encloses the whole shield and is also kept in a highly pure nitrogen atmosphere. A concrete neutron moderator 1 m thick largely surrounds the set-up. The experiment followed the proposal of Pierluigi Belli (then a Ph.D. student, now a research director of the Italian National Institute of Nuclear Physics), which his research group then followed up on.

Results

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The DAMA/NaI set-up observed the annual modulation signature over 7 annual cycles (1995–2002). The presence of a model independent positive evidence in the data of DAMA/NaI was first reported by the DAMA collaboration in fall 1997 and published beginning of 1998.[4] The final paper with the full results was published in 2003 after the end of experiment in July 2002.[1] Various corollary investigations are continuing and have also been published.[5][6][7][8][9][10][11][12][13][14]

The model-independent evidence is compatible with a wide set of scenarios regarding the nature of the dark matter candidate and related astrophysical, nuclear and particle physics,[15] for example: neutralinos,[16][17][18] inelastic dark matter,[19] self-interacting dark matter,[20] and heavy 4th generation neutrinos.[21][22]

A careful quantitative investigation of possible sources of systematic and side reactions has been regularly carried out and published at the time of each data release.[23] No systematic effect or side reaction able to account for the observed modulation amplitude and to simultaneously satisfy all the requirements of the signature has been found.

The experiment has also obtained and published many results on other processes and approaches.

Skepticism

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Negative results from the XENON Dark Matter Search Experiment seem to contradict DAMA/Nal's results.[24]

The COSINE-100 collaboration has been working in Korea towards confirming or refuting the DAMA-signal. They are using a similar experimental setup to DAMA (NaI(Tl)-crystals). They published their results in December 2018 in the journal Nature; their conclusion was that their "result rules out WIMP–nucleon interactions as the cause of the annual modulation observed by the DAMA collaboration".[25]

A possible explanation of the reported modulation was pointed out as originating from the data analysis procedure. A yearly subtraction of the constant component can give rise to a sawtooth residual in the presence of a slower time dependence.[26] New support for this hypothesis came in August 2022 when COSINE-100 applied an analysis method similar to one used by DAMA/LIBRA and found a similar annual modulation suggesting the signal could be just a statistical artifact.[27][28]

In May 2021, the ANAIS dark matter direct detection experiment,[29] after acquiring data for 3 years at the Canfranc Underground Laboratory in Spain, has not seen evidence for annual modulation in 112.5 kg of NaI(Tl) crystals and is thus incompatible with DAMA/NaI and DAMA/LIBRA[30] and in November new results from COSINE-100 experiment after 1.7 years of data collection also failed to replicate the signal of DAMA.[31][32]

Follow-up

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DAMA/NaI has been replaced by the new generation experiment, DAMA/LIBRA. These experiments are carried out by Italian and Chinese researchers.

References

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  1. ^ a b Bernabei, R.; et al. (2003). "Dark Matter search". Rivista del Nuovo Cimento. 26 (1): 1–73. arXiv:astro-ph/0307403. Bibcode:2003NCimR..26a...1B. doi:10.1007/BF03548916.
  2. ^ Bernabei, R.; et al. (1999). "Performances of the about 100 kg NaI(Tl) set-up of the DAMA experiment at Gran Sasso". Il Nuovo Cimento A. 112 (6): 545–575. Bibcode:1999NCimA.112..545B. doi:10.1007/BF03035868. S2CID 119819887.
  3. ^ Savage, C.; et al. (2009). "Compatibility of DAMA/LIBRA dark matter detection with other searches". Journal of Cosmology and Astroparticle Physics. 2009 (4): 010. arXiv:0808.3607. Bibcode:2009JCAP...04..010S. doi:10.1088/1475-7516/2009/04/010. S2CID 119211397.
  4. ^ Bernabei, R.; et al. (1998). "Searching for WIMPs by the annual modulation signature". Physics Letters B. 424 (1–2): 195–201. Bibcode:1998PhLB..424..195B. doi:10.1016/S0370-2693(98)00172-5.
  5. ^ Bernabei, R.; et al. (2001). "Investigating the DAMA annual modulation data in a mixed coupling framework". Physics Letters B. 509 (3–4): 197–203. Bibcode:2001PhLB..509..197B. doi:10.1016/S0370-2693(01)00493-2.
  6. ^ Bernabei, R.; et al. (2002). "Investigating the DAMA annual modulation data in the framework of inelastic dark matter". European Physical Journal C. 23 (1): 61–64. Bibcode:2002EPJC...23...61B. doi:10.1007/s100520100854. S2CID 121818290.
  7. ^ Belli, P.; et al. (2002). "Effect of the galactic halo modeling on the DAMA-NaI annual modulation result: An extended analysis of the data for weakly interacting massive particles with a purely spin-independent coupling". Physical Review D. 66 (4): 043503. arXiv:hep-ph/0203242. Bibcode:2002PhRvD..66d3503B. doi:10.1103/PhysRevD.66.043503. S2CID 117940903.
  8. ^ Bernabei, R.; et al. (2004). "Dark matter particles in the galactic halo: Results and implications from DAMA/NaI". International Journal of Modern Physics D. 13 (10): 2127–2159. arXiv:astro-ph/0501412. Bibcode:2004IJMPD..13.2127B. doi:10.1142/S0218271804006619. S2CID 14877183.
  9. ^ Bernabei, R.; et al. (2006). "Investigating pseudoscalar and scalar dark matter". International Journal of Modern Physics A. 21 (7): 1445–1469. arXiv:astro-ph/0511262. Bibcode:2006IJMPA..21.1445B. doi:10.1142/S0217751X06030874. S2CID 2644347.
  10. ^ Bernabei, R.; et al. (2006). "Investigating halo substructures with annual modulation signature". European Physical Journal C. 47 (1): 263–271. arXiv:astro-ph/0604303. Bibcode:2006EPJC...47..263B. doi:10.1140/epjc/s2006-02559-9. S2CID 15598618.
  11. ^ Bernabei, R.; et al. (2007). "On electromagnetic contributions in WIMP quests". International Journal of Modern Physics A. 22 (19): 3155–3168. arXiv:0706.1421. Bibcode:2007IJMPA..22.3155B. doi:10.1142/S0217751X07037093. S2CID 2157347.
  12. ^ Bernabei, R.; et al. (2008). "Investigating electron interacting dark matter". Physical Review D. 77 (2): 3155–3168. arXiv:0706.1421. Bibcode:2008PhRvD..77b3506B. doi:10.1103/PhysRevD.77.023506. S2CID 17766827.
  13. ^ Bernabei, R.; et al. (2008). "Possible implications of the channeling effect in NaI(Tl) crystals". European Physical Journal C. 53 (2): 205–213. arXiv:0710.0288. Bibcode:2008EPJC...53..205B. doi:10.1140/epjc/s10052-007-0479-0. S2CID 16162566.
  14. ^ Bernabei, R.; et al. (2008). "Investigation on light dark matter". Modern Physics Letters A. 23 (26): 2125–2140. arXiv:0802.4336. Bibcode:2008MPLA...23.2125B. doi:10.1142/S0217732308027473. S2CID 7994047.
  15. ^ Foot, R. (2004). "Reconciling the positive DAMA annual modulation signal with the negative results of the CDMS II experiment". Modern Physics Letters A. 19 (24): 1841–1846. arXiv:astro-ph/0405362. Bibcode:2004MPLA...19.1841F. doi:10.1142/S0217732304015051. S2CID 18243354.
  16. ^ Bottino, A.; et al. (2003). "Light Relic Neutralinos". Physical Review D. 67 (6): 063519. arXiv:hep-ph/0212379. Bibcode:2003PhRvD..67f3519B. doi:10.1103/PhysRevD.67.063519. S2CID 118933325.
  17. ^ Bottino, A.; et al. (2003). "Lower bound on the neutralino mass from new data on CMB and implications for relic neutralinos". Physical Review D. 68 (4): 043506. arXiv:hep-ph/0304080. Bibcode:2003PhRvD..68d3506B. doi:10.1103/PhysRevD.68.043506. S2CID 119105240.
  18. ^ Bottino, A.; et al. (2004). "Light neutralinos and WIMP direct searches". Physical Review D. 69 (3): 037302. arXiv:hep-ph/0307303. Bibcode:2004PhRvD..69c7302B. doi:10.1103/PhysRevD.69.037302. S2CID 119515047.
  19. ^ Smith, D.T.; Weiner, N. (2005). "The Status of Inelastic Dark Matter". Physical Review D. 72 (6): 063509. arXiv:hep-ph/0402065. Bibcode:2005PhRvD..72f3509T. doi:10.1103/PhysRevD.72.063509. S2CID 115846489.
  20. ^ Mitra, S. (2005). "Has Dama Detected Self-Interacting Dark Matter?". Physical Review D. 71 (12): 121302. arXiv:astro-ph/0409121. Bibcode:2005PhRvD..71l1302M. doi:10.1103/PhysRevD.71.121302. S2CID 31554326.
  21. ^ Belotsky, K.M.; Damour, T.; Khlopov, M. Yu. (2002). "Implications of a solar-system population of massive 4th generation neutrinos for underground searches of monochromatic neutrino-annihilation signals". Physics Letters B. 529 (1–2): 10–18. arXiv:astro-ph/0201314. Bibcode:2002PhLB..529...10B. doi:10.1016/S0370-2693(02)01234-0. S2CID 119506404.
  22. ^ Belotsky, K.; Fargion, D.; Khlopov, M.; Konoplich, R.V. (2008). "May Heavy neutrinos solve underground and cosmic ray puzzles?". Physics of Atomic Nuclei. 71 (1): 147–161. arXiv:hep-ph/0411093. Bibcode:2008PAN....71..147B. doi:10.1007/s11450-008-1016-9. S2CID 14895847.
  23. ^ Bernabei, R.; et al. (2000). "On the investigation of possible systematics in WIMP annual modulation search". European Physical Journal C. 18 (2): 283–292. Bibcode:2000EPJC...18..283B. doi:10.1007/s100520000540. S2CID 121391203.
  24. ^ Matson, John (6 May 2011). "WIMP Wars: Astronomers and physicists remain skeptical of long-standing dark matter claim". Scientific American. Retrieved 12 April 2011.
  25. ^ COSINE-100 Collaboration; Adhikari, Govinda; Adhikari, Pushparaj; Barbosa De Souza, Estella; 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 Y.; Lee, Hyun Su; Lee, Jaison; et al. (2018). "An experiment to search for dark-matter interactions using sodium iodide detectors". Nature. 564 (7734): 83–86. arXiv:1906.01791. Bibcode:2018Natur.564...83C. doi:10.1038/s41586-018-0739-1. PMID 30518890. S2CID 54459495.{{cite journal}}: CS1 maint: numeric names: authors list (link)
  26. ^ D. Buttazzo; et al. (2020). "Annual modulations from secular variations: relaxing DAMA?". Journal of High Energy Physics. 2020 (4): 137. arXiv:2002.00459. Bibcode:2020JHEP...04..137B. doi:10.1007/JHEP04(2020)137. S2CID 211010848.
  27. ^ Adhikari, G.; Carlin, N.; Choi, J. J.; Choi, S.; Ezeribe, A. C.; Franca, L. E.; Ha, C.; Hahn, I. S.; Hollick, S. J.; Jeon, E. J.; Jo, J. H.; Joo, H. W.; Kang, W. G.; Kauer, M.; Kim, B. H. (2023). "An induced annual modulation signature in COSINE-100 data by DAMA/LIBRA's analysis method". Scientific Reports. 13 (1): 4676. arXiv:2208.05158. Bibcode:2023NatSR..13.4676A. doi:10.1038/s41598-023-31688-4. PMC 10033922. PMID 36949218.
  28. ^ Castelvecchi, Davide (2022-08-16). "Notorious dark-matter signal could be due to analysis error". Nature. doi:10.1038/d41586-022-02222-9. PMID 35974221. S2CID 251624302.
  29. ^ "ANAIS Experiment | Universidad de Zaragoza".
  30. ^ Amare, J.; et al. (2021). "Annual modulation results from three-year exposure of ANAIS-112". Physical Review D. 103 (10): 102005. arXiv:2103.01175. Bibcode:2021PhRvD.103j2005A. doi:10.1103/PhysRevD.103.102005. S2CID 232092298.
  31. ^ Adhikari, Govinda; de Souza, Estella B.; Carlin, Nelson; Choi, Jae Jin; Choi, Seonho; Djamal, Mitra; Ezeribe, Anthony C.; França, Luis E.; Ha, Chang Hyon; Hahn, In Sik; Jeon, Eunju (2021-11-12). "Strong constraints from COSINE-100 on the DAMA dark matter results using the same sodium iodide target". Science Advances. 7 (46): eabk2699. arXiv:2104.03537. Bibcode:2021SciA....7.2699A. doi:10.1126/sciadv.abk2699. ISSN 2375-2548. PMC 8580298. PMID 34757778.
  32. ^ "Is the end in sight for famous dark matter claim?". www.science.org. Retrieved 2021-12-29.
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