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Collaborative Research: DarkSide-20k
合作研究:DarkSide-20k
基本信息
- 批准号:1622345
- 负责人:
- 金额:$ 28万
- 依托单位:
- 依托单位国家:美国
- 项目类别:Continuing Grant
- 财政年份:2018
- 资助国家:美国
- 起止时间:2018-09-01 至 2023-04-30
- 项目状态:已结题
- 来源:
- 关键词:
项目摘要
Multiple astronomical observations have established that about 85% of the matter in the universe is not made of normal atoms, but must be otherwise undetected elementary "dark matter" particles that do not emit or absorb light. Deciphering the nature of this so-called Dark Matter is of fundamental importance to cosmology, astrophysics, and high-energy particle physics. A leading hypothesis is that it is comprised of Weakly Interacting Massive Particles, or WIMPs, that were produced moments after the Big Bang. If WIMPs are the dark matter, then their presence in our galaxy may be detectable via scattering from atomic nuclei in detectors located deep underground to help reject backgrounds due to cosmic rays. Direct detection of WIMP dark matter would solve a fundamental mystery in particle physics and cosmology, providing a unique window to learning about the primary matter constituent of the Universe and of physics beyond the Standard Model of particle physics. This award is to support the NSF-funded DarkSide (DS) groups for the construction of DarkSide-20k (DS-20k), a direct WIMP search using a Liquid Argon Time Projection Chamber (LAr TPC) with an active (fiducial) mass of 23 tons (20 tons).DarkSide collaborators have proposed a technology for separation of He-3 at large He-4 production plants that could alleviate future shortages of the rare helium isotope. The Urania project will establish a long-term facility that will be able to produce hundreds of tons of low-radioactivity underground argon (UAr), and will supply UAr for several programs beyond DarkSide-20k, such as for radiometry, Ar-39 age dating of ground water, and National Security treaty verification. The DarkSide program will advance technologies for detection of Ar-37, used for nuclear test ban verification, and Ar-39, used for radiometric dating. The Aria project will further reduce the Ar-39 in UAr by isotope separation, yielding as by-product the ability to separate important stable isotopes such as O-18, N-15, and C-13. These are used to produce radionuclides for medical positron emission tomography (PET). Technologies for advanced gas purification, precision cleaning, production of ultra-pure titanium, and reduction of radioactivity in silicon chips will also be developed.The significant improvement in sensitivity is made possible by technology developed within several world-wide programs toward WIMP recoil detection with liquid argon as the target, and in particular within the DarkSide-10 and DarkSide-50 programs, including operation of the DarkSide-50 LAr TPC with both atmospheric argon (AAr) and underground argon (UAr) fills. Liquid argon is an excellent medium for WIMP detection due to its efficient conversion of energy from nuclear recoils into both ionization and scintillation. The argon scintillation time profile ('pulse shape') depends on the nature of the ionizing particle, providing powerful particle discrimination to suppress background from natural radioactivity. Using AAr in DarkSide-50, it was demonstrated that pulse shape analysis suppresses beta/gamma backgrounds by a factor in excess of 1.5 x 10^7, one of the most powerful background rejection factors among all dark matter detectors.This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
多项天文观测已经确定,宇宙中大约85%的物质不是由正常原子组成的,而是不发射或吸收光的未被检测到的基本“暗物质”粒子。破译这种所谓的暗物质的性质对宇宙学、天体物理学和高能粒子物理学具有根本的重要性。一个主要的假设是,它是由弱相互作用大质量粒子(WIMP)组成的,这些粒子是在大爆炸后产生的。如果WIMP是暗物质,那么它们在我们星系中的存在可能是通过位于地下深处的探测器中的原子核散射来检测的,以帮助排除宇宙射线造成的背景。对WIMP暗物质的直接探测将解决粒子物理学和宇宙学中的一个基本谜团,为了解宇宙的主要物质组成和粒子物理学标准模型之外的物理学提供了一个独特的窗口。该奖项是为了支持NSF资助的DarkSide(DS)团体建造DarkSide-20 k(DS-20 k),直接WIMP搜索使用液态氩时间投影室(LAr TPC),黑暗面的合作者提出了一种分离He-3的技术,4个生产工厂,可以缓解未来稀有氦同位素的短缺。Urania项目将建立一个长期设施,能够生产数百吨低放射性地下氩(UAr),并将为DarkSide-20 k以外的几个项目提供UAr,例如辐射测量,地下水的Ar-39年龄测定和国家安全条约验证。DarkSide计划将推进用于核禁试核查的Ar-37和用于放射性测年的Ar-39的探测技术。Aria项目将通过同位素分离进一步减少UAr中的Ar-39,作为副产品产生分离重要稳定同位素如O-18,N-15和C-13的能力。这些用于生产医用正电子发射断层扫描(PET)的放射性核素。先进的气体净化技术、精密清洗技术、超纯钛的生产技术以及降低硅片中放射性的技术也将得到发展。灵敏度的显著提高是由于世界范围内几个以液态氩为靶的WIMP反冲探测计划所开发的技术,特别是DarkSide-10和DarkSide-50计划所开发的技术。包括DarkSide-50 LAr TPC在大气氩气(AAr)和地下氩气(UAr)填充下的操作。由于液态氩能有效地将核反冲产生的能量转化为电离和闪烁能量,因此液态氩是一种很好的弱相互作用探测介质。氩闪烁时间曲线(“脉冲形状”)取决于电离粒子的性质,提供强大的粒子辨别力以抑制天然放射性的背景。在DarkSide-50中使用AAr,证明了脉冲形状分析抑制β/γ背景的因子超过1.5 x 10^7,这是所有暗物质探测器中最强大的背景抑制因子之一。该奖项反映了NSF的法定使命,并通过使用基金会的智力价值和更广泛的影响审查标准进行评估,被认为值得支持。
项目成果
期刊论文数量(12)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
Low-Mass Dark Matter Search with the DarkSide-50 Experiment
使用 DarkSide-50 实验进行低质量暗物质搜索
- DOI:10.1103/physrevlett.121.081307
- 发表时间:2018
- 期刊:
- 影响因子:8.6
- 作者:Agnes, P.;Albuquerque, I. F.;Alexander, T.;Alton, A. K.;Araujo, G. R.;Asner, D. M.;Ave, M.;Back, H. O.;Baldin, B.;Batignani, G.
- 通讯作者:Batignani, G.
Calibration of the liquid argon ionization response to low energy electronic and nuclear recoils with DarkSide-50
使用 DarkSide-50 校准液氩电离对低能电子和核反冲的响应
- DOI:
- 发表时间:2021
- 期刊:
- 影响因子:0
- 作者:The DarkSide collaboration) Agnes, P.;Albuquerque, I. F.;Alexander, T.;Alton, A. K.;Ave, M.;Back, H. O.;Batignani, G.;Biery, K.;Bocci, V.;Bonivento, W. M.
- 通讯作者:Bonivento, W. M.
SiPM-matrix readout of two-phase argon detectors using electroluminescence in the visible and near infrared range
- DOI:10.1140/epjc/s10052-020-08801-2
- 发表时间:2020-04
- 期刊:
- 影响因子:0
- 作者:T. M. C. C. Aalseth-T.-M.-C.-C.-Aalseth-1490633423;S. Abdelhakim;P. Agnes;R. Ajaj;I. Albuquerque;T. Alexander;A. Alici;A. Alton;P. Amaudruz;F. Ameli;J. Anstey;P. Antonioli;M. Arba;S. Arcelli;R. Ardito;I. Arnquist;P. Arpaia;D. Asner;A. Asunskis;M. Ave;H. Back;V. Barbaryan;A. B. Olmedo;G. Batignani;M. G. Bisogni;V. Bocci;A. Bondar;G. Bonfini;W. Bonivento;E. Borisova;B. Bottino;M. Boulay;R. Bunker;S. Bussino;A. Buzulutskov;M. Cadeddu;M. Cadoni;A. Caminata;N. Canci;A. Candela;C. Cantini;M. Caravati;M. Cariello;F. Carnesecchi;A. Castellani;P. Castello;P. Cavalcante;D. Cavazza;S. Cavuoti;S. Cebrián;J. M. C. Ruiz;B. Celano;R. Cereseto;S. Chashin;Wei Cheng;A. Chepurnov;C. Cicalò;L. Cifarelli;M. Citterio;F. Coccetti;V. Cocco;M. Colocci;E. Vidal;L. Consiglio;F. Cossio;G. Covone;P. Crivelli;I. D'Antone;M. D’Incecco;M. Rolo;O. Dadoun;M. Daniel;S. Davini;S. Cecco;M. Deo;A. Falco;D. Gruttola;G. D. Guido;G. Rosa;G. Dellacasa;P. Demontis;S. Pasquale;A. Derbin;A. Devoto;F. D. Eusanio;L. Noto;G. D. Pietro;P. D. Stefano;C. Dionisi;G. Dolganov;F. Dordei;M. Downing;F. Edalatfar;A. Empl;M. Diaz;C. Filip;G. Fiorillo;K. Fomenko;A. Franceschi;D. Franco;E. Frolov;G. Froudakis;N. Funicello;F. Gabriele;A. Gabrieli;C. Galbiati;M. Garbini;P. G. Abia;D. G. Fora;A. Gendotti;C. Ghiano;A. Ghisi;P. Giampa;R. A. Giampaolo;C. Giganti;M. Giorgi;G. Giovanetti;M. Gligan;O. Gorchakov;M. Grab;R. Diaz;M. Grassi;J. Grate;A. Grobov;M. Gromov;M. Guan;M. Guerra;M. Guerzoni;M. Gulino;R. Haaland;B. Hackett;A. Hallin;M. Harańczyk;B. Harrop;E. Hoppe;S. Horikawa;B. Hosseini;F. Hubaut;P. Humble;E. Hungerford;A. Ianni;A. Ilyasov;V. Ippolito;C. Jillings;K. Keeter;C. Kendziora;I. Kochanek;K. Kondo;G. Kopp;D. Korablev;G. Korga;A. Kubankin;R. Kugathasan;M. Kuss;M. Commara;L. Delfa;M. Lai;M. Lebois;B. Lehnert;N. Levashko;X. Li;Q. Liqiang;M. Lissia;G. Lodi;G. Longo;R. Lussana;L. Luzzi;A. Machado;I. Machulin;A. Mandarano;S. Manecki;L. Mapelli;A. Margotti;S. Mari;M. Mariani;J. Maricic;M. Marinelli;D. Marras;M. Mart'inez;A. Rojas;M. Mascia;J. Mason;A. Masoni;A. McDonald;A. Messina;T. Miletić;R. Milincic;A. Moggi;S. Moioli;J. Monroe;M. Morrocchi;T. Mroz;W. Mu;V. Muratova;S. Murphy;C. Muscas;P. Musico;R. Nania;T. Napolitano;A. N. Agasson;M. Nessi;I. Nikulin;V. Nosov;J. Nowak;A. Oleinik;V. Oleynikov;M. Orsini;F. Ortica;L. Pagani;M. Pallavicini;S. Palmas;L. Pandola;E. Pantic;E. Paoloni;F. Pazzona;S. Peeters;P. Pegoraro;K. Pelczar;L. Pellegrini;C. Pellegrino;N. Pelliccia;F. Perotti;V. Pesudo;E. Picciau;F. Pietropaolo;A. Pocar;T. Pollmann;D. Portaluppi;S. Poudel;P. Pralavorio;D. Price;B. Radics;F. Raffaelli;F. Ragusa;M. Razeti;C. Regenfus;A. Renshaw;S. Rescia;M. Rescigno;F. Retière;L. Rignanese;C. Ripoli;A. Rivetti;J. Rode;A. Romani;L. Romero;N. Rossi;A. Rubbia;P. Sala;P. Salatino;O. Samoylov;E. Garc'ia;E. Sandford;S. Sanfilippo;M. Sant;D. Santone;R. Santorelli;C. Savarese;E. Scapparone;B. Schlitzer;G. Scioli;E. Segreto;A. Seifert;D. Semenov;A. Shchagin;A. Sheshukov;S. Siddhanta;M. Simeone;P. Singh;P. Skensved;M. Skorokhvatov;O. Smirnov;G. Sobrero;A. Sokolov;A. Sotnikov;R. Stainforth;A. Steri;S. Stracka;V. Strickland;G. B. Suffritti;S. Sulis;Y. Suvorov;A. Szelc;R. Tartaglia;G. Testera;T. Thorpe;A. Tonazzo;A. Tosi;M. Tuveri;E. Unzhakov;G. Usai;A. Vacca;E. V'azquez-J'auregui;T. Viant;S. Viel;F. Villa;A. Vishneva;R. Vogelaar;J. Wahl;J. Walding;H. Wang;Y. Wang;S. Westerdale;R. Wheadon;R. Williams;J. Wilson;M. Wójcik;M. Wójcik;S. Wu;X. Xiao;C. Yang;Z. Ye;M. Zuffa;G. Zuzel
- 通讯作者:T. M. C. C. Aalseth-T.-M.-C.-C.-Aalseth-1490633423;S. Abdelhakim;P. Agnes;R. Ajaj;I. Albuquerque;T. Alexander;A. Alici;A. Alton;P. Amaudruz;F. Ameli;J. Anstey;P. Antonioli;M. Arba;S. Arcelli;R. Ardito;I. Arnquist;P. Arpaia;D. Asner;A. Asunskis;M. Ave;H. Back;V. Barbaryan;A. B. Olmedo;G. Batignani;M. G. Bisogni;V. Bocci;A. Bondar;G. Bonfini;W. Bonivento;E. Borisova;B. Bottino;M. Boulay;R. Bunker;S. Bussino;A. Buzulutskov;M. Cadeddu;M. Cadoni;A. Caminata;N. Canci;A. Candela;C. Cantini;M. Caravati;M. Cariello;F. Carnesecchi;A. Castellani;P. Castello;P. Cavalcante;D. Cavazza;S. Cavuoti;S. Cebrián;J. M. C. Ruiz;B. Celano;R. Cereseto;S. Chashin;Wei Cheng;A. Chepurnov;C. Cicalò;L. Cifarelli;M. Citterio;F. Coccetti;V. Cocco;M. Colocci;E. Vidal;L. Consiglio;F. Cossio;G. Covone;P. Crivelli;I. D'Antone;M. D’Incecco;M. Rolo;O. Dadoun;M. Daniel;S. Davini;S. Cecco;M. Deo;A. Falco;D. Gruttola;G. D. Guido;G. Rosa;G. Dellacasa;P. Demontis;S. Pasquale;A. Derbin;A. Devoto;F. D. Eusanio;L. Noto;G. D. Pietro;P. D. Stefano;C. Dionisi;G. Dolganov;F. Dordei;M. Downing;F. Edalatfar;A. Empl;M. Diaz;C. Filip;G. Fiorillo;K. Fomenko;A. Franceschi;D. Franco;E. Frolov;G. Froudakis;N. Funicello;F. Gabriele;A. Gabrieli;C. Galbiati;M. Garbini;P. G. Abia;D. G. Fora;A. Gendotti;C. Ghiano;A. Ghisi;P. Giampa;R. A. Giampaolo;C. Giganti;M. Giorgi;G. Giovanetti;M. Gligan;O. Gorchakov;M. Grab;R. Diaz;M. Grassi;J. Grate;A. Grobov;M. Gromov;M. Guan;M. Guerra;M. Guerzoni;M. Gulino;R. Haaland;B. Hackett;A. Hallin;M. Harańczyk;B. Harrop;E. Hoppe;S. Horikawa;B. Hosseini;F. Hubaut;P. Humble;E. Hungerford;A. Ianni;A. Ilyasov;V. Ippolito;C. Jillings;K. Keeter;C. Kendziora;I. Kochanek;K. Kondo;G. Kopp;D. Korablev;G. Korga;A. Kubankin;R. Kugathasan;M. Kuss;M. Commara;L. Delfa;M. Lai;M. Lebois;B. Lehnert;N. Levashko;X. Li;Q. Liqiang;M. Lissia;G. Lodi;G. Longo;R. Lussana;L. Luzzi;A. Machado;I. Machulin;A. Mandarano;S. Manecki;L. Mapelli;A. Margotti;S. Mari;M. Mariani;J. Maricic;M. Marinelli;D. Marras;M. Mart'inez;A. Rojas;M. Mascia;J. Mason;A. Masoni;A. McDonald;A. Messina;T. Miletić;R. Milincic;A. Moggi;S. Moioli;J. Monroe;M. Morrocchi;T. Mroz;W. Mu;V. Muratova;S. Murphy;C. Muscas;P. Musico;R. Nania;T. Napolitano;A. N. Agasson;M. Nessi;I. Nikulin;V. Nosov;J. Nowak;A. Oleinik;V. Oleynikov;M. Orsini;F. Ortica;L. Pagani;M. Pallavicini;S. Palmas;L. Pandola;E. Pantic;E. Paoloni;F. Pazzona;S. Peeters;P. Pegoraro;K. Pelczar;L. Pellegrini;C. Pellegrino;N. Pelliccia;F. Perotti;V. Pesudo;E. Picciau;F. Pietropaolo;A. Pocar;T. Pollmann;D. Portaluppi;S. Poudel;P. Pralavorio;D. Price;B. Radics;F. Raffaelli;F. Ragusa;M. Razeti;C. Regenfus;A. Renshaw;S. Rescia;M. Rescigno;F. Retière;L. Rignanese;C. Ripoli;A. Rivetti;J. Rode;A. Romani;L. Romero;N. Rossi;A. Rubbia;P. Sala;P. Salatino;O. Samoylov;E. Garc'ia;E. Sandford;S. Sanfilippo;M. Sant;D. Santone;R. Santorelli;C. Savarese;E. Scapparone;B. Schlitzer;G. Scioli;E. Segreto;A. Seifert;D. Semenov;A. Shchagin;A. Sheshukov;S. Siddhanta;M. Simeone;P. Singh;P. Skensved;M. Skorokhvatov;O. Smirnov;G. Sobrero;A. Sokolov;A. Sotnikov;R. Stainforth;A. Steri;S. Stracka;V. Strickland;G. B. Suffritti;S. Sulis;Y. Suvorov;A. Szelc;R. Tartaglia;G. Testera;T. Thorpe;A. Tonazzo;A. Tosi;M. Tuveri;E. Unzhakov;G. Usai;A. Vacca;E. V'azquez-J'auregui;T. Viant;S. Viel;F. Villa;A. Vishneva;R. Vogelaar;J. Wahl;J. Walding;H. Wang;Y. Wang;S. Westerdale;R. Wheadon;R. Williams;J. Wilson;M. Wójcik;M. Wójcik;S. Wu;X. Xiao;C. Yang;Z. Ye;M. Zuffa;G. Zuzel
A study of events with photoelectric emission in the DarkSide-50 liquid argon Time Projection Chamber
DarkSide-50 液氩时间投影室中光电发射事件的研究
- DOI:
- 发表时间:2021
- 期刊:
- 影响因子:0
- 作者:The DarkSide-50 Collaboration) Agnes, P.;Albuquerque, I. F.;Alexander, T.;Alton, A. K.;Ave, M.;Back, H. O.;Batignani, G.;Biery, K.;Bocci, V.;Bonivento, W. M.
- 通讯作者:Bonivento, W. M.
Effective field theory interactions for liquid argon target in DarkSide-50 experiment
DarkSide-50 实验中液氩靶的有效场论相互作用
- DOI:10.1103/physrevd.101.062002
- 发表时间:2020
- 期刊:
- 影响因子:5
- 作者:Agnes, P.;Albuquerque, I. F. M.;Alexander, T.;Alton, A. K.;Ave, M.;Back, H. O.;Batignani, G.;Biery, K.;Bocci, V.;Bonfini, G.
- 通讯作者:Bonfini, G.
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Emilija Pantic其他文献
Emilija Pantic的其他文献
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{{ truncateString('Emilija Pantic', 18)}}的其他基金
Collaborative Research: The DarkSide Dark-Matter Search Using Liquid Argon
合作研究:使用液氩进行暗物质搜索
- 批准号:
2310048 - 财政年份:2023
- 资助金额:
$ 28万 - 项目类别:
Continuing Grant
Collaborative Research: DarkSide-20k: A Global Program for the Direct Detection of Dark Matter Using Low-Radioactivity Argon
合作研究:DarkSide-20k:使用低放射性氩直接探测暗物质的全球计划
- 批准号:
1812492 - 财政年份:2018
- 资助金额:
$ 28万 - 项目类别:
Continuing Grant
CAREER: R&D for Future Noble-Liquid-Based Dark Matter Searches: Hybrid Photosensors and Intrinsic Background Rejection
职业:R
- 批准号:
1455351 - 财政年份:2015
- 资助金额:
$ 28万 - 项目类别:
Continuing Grant
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相似海外基金
Collaborative Research: The DarkSide Dark-Matter Search Using Liquid Argon
合作研究:使用液氩进行暗物质搜索
- 批准号:
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2310046 - 财政年份:2023
- 资助金额:
$ 28万 - 项目类别:
Continuing Grant
Collaborative Research: The DarkSide Dark-Matter Search Using Liquid Argon
合作研究:使用液氩进行暗物质搜索
- 批准号:
2310049 - 财政年份:2023
- 资助金额:
$ 28万 - 项目类别:
Continuing Grant
Collaborative Research: The DarkSide Dark-Matter Search Using Liquid Argon
合作研究:使用液氩进行暗物质搜索
- 批准号:
2310038 - 财政年份:2023
- 资助金额:
$ 28万 - 项目类别:
Continuing Grant
Collaborative Research: The DarkSide Dark-Matter Search Using Liquid Argon
合作研究:使用液氩进行暗物质搜索
- 批准号:
2310043 - 财政年份:2023
- 资助金额:
$ 28万 - 项目类别:
Continuing Grant
Collaborative Research: The DarkSide Dark-Matter Search Using Liquid Argon
合作研究:使用液氩进行暗物质搜索
- 批准号:
2310048 - 财政年份:2023
- 资助金额:
$ 28万 - 项目类别:
Continuing Grant
Collaborative Research: The DarkSide Dark-Matter Search Using Liquid Argon
合作研究:使用液氩进行暗物质搜索
- 批准号:
2310045 - 财政年份:2023
- 资助金额:
$ 28万 - 项目类别:
Continuing Grant
Collaborative Research: The DarkSide Dark-Matter Search Using Liquid Argon
合作研究:使用液氩进行暗物质搜索
- 批准号:
2310044 - 财政年份:2023
- 资助金额:
$ 28万 - 项目类别:
Continuing Grant