Characterization of cubic Li$$_{2}$$$$^{100}$$MoO$$_4$$ crystals for the CUPID experiment

A. Armatol,The CUPID Collaboration,E. Armengaud,W. Armstrong,C. Augier,F. T. Avignone,O. Azzolini,A. Barabash,G. Bari,A. Barresi,D. Baudin,F. Bellini,G. Benato,M. Beretta,L. Bergé,M. Biassoni,J. Billard,V. Boldrini,A. Branca,C. Brofferio,C. Bucci,J. Camilleri,S. Capelli,L. Cappelli,L. Cardani,P. Carniti,N. Casali,A. Cazes,E. Celi,C. Chang,M. Chapellier,A. Charrier,D. Chiesa,M. Clemenza,I. Colantoni,F. Collamati,S. Copello,O. Cremonesi,R. J. Creswick,A. Cruciani,A. D’Addabbo,G. D’Imperio,I. Dafinei,F. A. Danevich,M. de Combarieu,M. De Jesus,P. de Marcillac,S. Dell’Oro,S. Di Domizio,V. Dompè,A. Drobizhev,L. Dumoulin,G. Fantini,M. Faverzani,E. Ferri,F. Ferri,F. Ferroni,E. Figueroa-Feliciano,J. Formaggio,A. Franceschi,C. Fu,S. Fu,B. K. Fujikawa,J. Gascon,A. Giachero,L. Gironi,A. Giuliani,P. Gorla,C. Gotti,P. Gras,M. Gros,T. D. Gutierrez,K. Han,E. V. Hansen,K. M. Heeger,D. L. Helis,H. Z. Huang,R. G. Huang,L. Imbert,J. Johnston,A. Juillard,G. Karapetrov,G. Keppel,H. Khalife,V. V. Kobychev,Yu. G. Kolomensky,S. Konovalov,Y. Liu,P. Loaiza,L. Ma,M. Madhukuttan,F. Mancarella,R. Mariam,L. Marini,S. Marnieros,M. Martinez,R. H. Maruyama,B. Mauri,D. Mayer,Y. Mei,S. Milana,D. Misiak,T. Napolitano,M. Nastasi,X. F. Navick,J. Nikkel,R. Nipoti,S. Nisi,C. Nones,E. B. Norman,V. Novosad,I. Nutini,T. O’Donnell,E. Olivieri,C. Oriol,J. L. Ouellet,S. Pagan,C. Pagliarone,L. Pagnanini,P. Pari,L. Pattavina,B. Paul,M. Pavan,H. Peng,G. Pessina,V. Pettinacci,C. Pira,S. Pirro,D. V. Poda,T. Polakovic,O. G. Polischuk,S. Pozzi,E. Previtali,A. Puiu,A. Ressa,R. Rizzoli,C. Rosenfeld,C. Rusconi,V. Sanglard,J. A. Scarpaci,B. Schmidt,V. Sharma,V. Shlegel,V. Singh,M. Sisti,D. Speller,P. T. Surukuchi,L. Taffarello,O. Tellier,C. Tomei,V. I. Tretyak,A. Tsymbaliuk,M. Velazquez,K. J. Vetter,S. L. Wagaarachchi,G. Wang,L. Wang,B. Welliver,J. Wilson,K. Wilson,L. A. Winslow,M. Xue,L. Yan,J. Yang,V. Yefremenko,V. Yumatov,M. M. Zarytskyy,J. Zhang,A. Zolotarova,S. Zucchelli; A. Armatol; The CUPID Collaboration; E. Armengaud; W. Armstrong; C. Augier; F. T. Avignone; O. Azzolini; A. Barabash; G. Bari; A. Barresi; D. Baudin; F. Bellini; G. Benato; M. Beretta; L. Bergé; M. Biassoni; J. Billard; V. Boldrini; A. Branca; C. Brofferio; C. Bucci; J. Camilleri; S. Capelli; L. Cappelli; L. Cardani; P. Carniti; N. Casali; A. Cazes; E. Celi; C. Chang; M. Chapellier; A. Charrier; D. Chiesa; M. Clemenza; I. Colantoni; F. Collamati; S. Copello; O. Cremonesi; R. J. Creswick; A. Cruciani; A. D’Addabbo; G. D’Imperio; I. Dafinei; F. A. Danevich; M. de Combarieu; M. De Jesus; P. de Marcillac; S. Dell’Oro; S. Di Domizio; V. Dompè; A. Drobizhev; L. Dumoulin; G. Fantini; M. Faverzani; E. Ferri; F. Ferri; F. Ferroni; E. Figueroa-Feliciano; J. Formaggio; A. Franceschi; C. Fu; S. Fu; B. K. Fujikawa; J. Gascon; A. Giachero; L. Gironi; A. Giuliani; P. Gorla; C. Gotti; P. Gras; M. Gros; T. D. Gutierrez; K. Han; E. V. Hansen; K. M. Heeger; D. L. Helis; H. Z. Huang; R. G. Huang; L. Imbert; J. Johnston; A. Juillard; G. Karapetrov; G. Keppel; H. Khalife; V. V. Kobychev; Yu. G. Kolomensky; S. Konovalov; Y. Liu; P. Loaiza; L. Ma; M. Madhukuttan; F. Mancarella; R. Mariam; L. Marini; S. Marnieros; M. Martinez; R. H. Maruyama; B. Mauri; D. Mayer; Y. Mei; S. Milana; D. Misiak; T. Napolitano; M. Nastasi; X. F. Navick; J. Nikkel; R. Nipoti; S. Nisi; C. Nones; E. B. Norman; V. Novosad; I. Nutini; T. O’Donnell; E. Olivieri; C. Oriol; J. L. Ouellet; S. Pagan; C. Pagliarone; L. Pagnanini; P. Pari; L. Pattavina; B. Paul; M. Pavan; H. Peng; G. Pessina; V. Pettinacci; C. Pira; S. Pirro; D. V. Poda; T. Polakovic; O. G. Polischuk; S. Pozzi; E. Previtali; A. Puiu; A. Ressa; R. Rizzoli; C. Rosenfeld; C. Rusconi; V. Sanglard; J. A. Scarpaci; B. Schmidt; V. Sharma; V. Shlegel; V. Singh; M. Sisti; D. Speller; P. T. Surukuchi; L. Taffarello; O. Tellier; C. Tomei; V. I. Tretyak; A. Tsymbaliuk; M. Velazquez; K. J. Vetter; S. L. Wagaarachchi; G. Wang; L. Wang; B. Welliver; J. Wilson; K. Wilson; L. A. Winslow; M. Xue; L. Yan; J. Yang; V. Yefremenko; V. Yumatov; M. M. Zarytskyy; J. Zhang; A. Zolotarova; S. Zucchelli

Characterization of cubic Li$$_{2}$$$$^{100}$$MoO$$_4$$ crystals for the CUPID experiment

A. Armatol,The CUPID Collaboration,E. Armengaud,W. Armstrong,C. Augier,F. T. Avignone,O. Azzolini,A. Barabash,G. Bari,A. Barresi,D. Baudin,F. Bellini,G. Benato,M. Beretta,L. Bergé,M. Biassoni,J. Billard,V. Boldrini,A. Branca,C. Brofferio,C. Bucci,J. Camilleri,S. Capelli,L. Cappelli,L. Cardani,P. Carniti,N. Casali,A. Cazes,E. Celi,C. Chang,M. Chapellier,A. Charrier,D. Chiesa,M. Clemenza,I. Colantoni,F. Collamati,S. Copello,O. Cremonesi,R. J. Creswick,A. Cruciani,A. D’Addabbo,G. D’Imperio,I. Dafinei,F. A. Danevich,M. de Combarieu,M. De Jesus,P. de Marcillac,S. Dell’Oro,S. Di Domizio,V. Dompè,A. Drobizhev,L. Dumoulin,G. Fantini,M. Faverzani,E. Ferri,F. Ferri,F. Ferroni,E. Figueroa-Feliciano,J. Formaggio,A. Franceschi,C. Fu,S. Fu,B. K. Fujikawa,J. Gascon,A. Giachero,L. Gironi,A. Giuliani,P. Gorla,C. Gotti,P. Gras,M. Gros,T. D. Gutierrez,K. Han,E. V. Hansen,K. M. Heeger,D. L. Helis,H. Z. Huang,R. G. Huang,L. Imbert,J. Johnston,A. Juillard,G. Karapetrov,G. Keppel,H. Khalife,V. V. Kobychev,Yu. G. Kolomensky,S. Konovalov,Y. Liu,P. Loaiza,L. Ma,M. Madhukuttan,F. Mancarella,R. Mariam,L. Marini,S. Marnieros,M. Martinez,R. H. Maruyama,B. Mauri,D. Mayer,Y. Mei,S. Milana,D. Misiak,T. Napolitano,M. Nastasi,X. F. Navick,J. Nikkel,R. Nipoti,S. Nisi,C. Nones,E. B. Norman,V. Novosad,I. Nutini,T. O’Donnell,E. Olivieri,C. Oriol,J. L. Ouellet,S. Pagan,C. Pagliarone,L. Pagnanini,P. Pari,L. Pattavina,B. Paul,M. Pavan,H. Peng,G. Pessina,V. Pettinacci,C. Pira,S. Pirro,D. V. Poda,T. Polakovic,O. G. Polischuk,S. Pozzi,E. Previtali,A. Puiu,A. Ressa,R. Rizzoli,C. Rosenfeld,C. Rusconi,V. Sanglard,J. A. Scarpaci,B. Schmidt,V. Sharma,V. Shlegel,V. Singh,M. Sisti,D. Speller,P. T. Surukuchi,L. Taffarello,O. Tellier,C. Tomei,V. I. Tretyak,A. Tsymbaliuk,M. Velazquez,K. J. Vetter,S. L. Wagaarachchi,G. Wang,L. Wang,B. Welliver,J. Wilson,K. Wilson,L. A. Winslow,M. Xue,L. Yan,J. Yang,V. Yefremenko,V. Yumatov,M. M. Zarytskyy,J. Zhang,A. Zolotarova,S. Zucchelli;A. Armatol;The CUPID Collaboration;E. Armengaud;W. Armstrong;C. Augier;F. T. Avignone;O. Azzolini;A. Barabash;G. Bari;A. Barresi;D. Baudin;F. Bellini;G. Benato;M. Beretta;L. Bergé;M. Biassoni;J. Billard;V. Boldrini;A. Branca;C. Brofferio;C. Bucci;J. Camilleri;S. Capelli;L. Cappelli;L. Cardani;P. Carniti;N. Casali;A. Cazes;E. Celi;C. Chang;M. Chapellier;A. Charrier;D. Chiesa;M. Clemenza;I. Colantoni;F. Collamati;S. Copello;O. Cremonesi;R. J. Creswick;A. Cruciani;A. D’Addabbo;G. D’Imperio;I. Dafinei;F. A. Danevich;M. de Combarieu;M. De Jesus;P. de Marcillac;S. Dell’Oro;S. Di Domizio;V. Dompè;A. Drobizhev;L. Dumoulin;G. Fantini;M. Faverzani;E. Ferri;F. Ferri;F. Ferroni;E. Figueroa-Feliciano;J. Formaggio;A. Franceschi;C. Fu;S. Fu;B. K. Fujikawa;J. Gascon;A. Giachero;L. Gironi;A. Giuliani;P. Gorla;C. Gotti;P. Gras;M. Gros;T. D. Gutierrez;K. Han;E. V. Hansen;K. M. Heeger;D. L. Helis;H. Z. Huang;R. G. Huang;L. Imbert;J. Johnston;A. Juillard;G. Karapetrov;G. Keppel;H. Khalife;V. V. Kobychev;Yu. G. Kolomensky;S. Konovalov;Y. Liu;P. Loaiza;L. Ma;M. Madhukuttan;F. Mancarella;R. Mariam;L. Marini;S. Marnieros;M. Martinez;R. H. Maruyama;B. Mauri;D. Mayer;Y. Mei;S. Milana;D. Misiak;T. Napolitano;M. Nastasi;X. F. Navick;J. Nikkel;R. Nipoti;S. Nisi;C. Nones;E. B. Norman;V. Novosad;I. Nutini;T. O’Donnell;E. Olivieri;C. Oriol;J. L. Ouellet;S. Pagan;C. Pagliarone;L. Pagnanini;P. Pari;L. Pattavina;B. Paul;M. Pavan;H. Peng;G. Pessina;V. Pettinacci;C. Pira;S. Pirro;D. V. Poda;T. Polakovic;O. G. Polischuk;S. Pozzi;E. Previtali;A. Puiu;A. Ressa;R. Rizzoli;C. Rosenfeld;C. Rusconi;V. Sanglard;J. A. Scarpaci;B. Schmidt;V. Sharma;V. Shlegel;V. Singh;M. Sisti;D. Speller;P. T. Surukuchi;L. Taffarello;O. Tellier;C. Tomei;V. I. Tretyak;A. Tsymbaliuk;M. Velazquez;K. J. Vetter;S. L. Wagaarachchi;G. Wang;L. Wang;B. Welliver;J. Wilson;K. Wilson;L. A. Winslow;M. Xue;L. Yan;J. Yang;V. Yefremenko;V. Yumatov;M. M. Zarytskyy;J. Zhang;A. Zolotarova;S. Zucchelli;

the european physical journal c 2021 Vol. 81 pp. 1-10

181

zucchelli2021thecharacterization

Abstract

The CUPID Collaboration is designing a tonne-scale, background-free detector to search for double beta decay with sufficient sensitivity to fully explore the parameter space corresponding to the inverted neutrino mass hierarchy scenario. One of the CUPID demonstrators, CUPID-Mo, has proved the potential of enriched Li $$_{2}$$ 2 $$^{100}$$ 100 MoO $$_4$$ 4 crystals as suitable detectors for neutrinoless double beta decay search. In this work, we characterised cubic crystals that, compared to the cylindrical crystals used by CUPID-Mo, are more appealing for the construction of tightly packed arrays. We measured an average energy resolution of ( $$6.7\pm 0.6$$ 6.7 ± 0.6 ) keV FWHM in the region of interest, approaching the CUPID target of 5 keV FWHM. We assessed the identification of $$\alpha $$ α particles with and without a reflecting foil that enhances the scintillation light collection efficiency, proving that the baseline design of CUPID already ensures a complete suppression of this $$\alpha $$ α -induced background contribution. We also used the collected data to validate a Monte Carlo simulation modelling the light collection efficiency, which will enable further optimisations of the detector.

Keywords

modelling alpha beta fwhm double kev crystals cupid

Access

DOI:

10.1140/epjc/s10052-020-08809-8

URL:

https://sciprofiles.com/publication/view/6c62f8e44...

Citation

ID: 273521

Ref Key: zucchelli2021thecharacterization

Use this key to autocite in SciMatic or Thesis Manager

References

No Bibliography

Blockchain Verification

Account:

NFT Contract Address:

0x95644003c57E6F55A65596E3D9Eac6813e3566dA

Article ID:

273521

Unique Identifier:

10.1140/epjc/s10052-020-08809-8

Network:

Scimatic Chain (ID: 481)

Blockchain Readiness Checklist

Authors

Abstract

Journal Name

Year

Title

5/5

Creates 1,000,000 NFT tokens for this article

Token Features:

ERC-1155 Standard NFT
1 Million Supply per Article
Transferable via MetaMask
Permanent Blockchain Record

Scan with Saymatik Web3.0 Wallet

Gas fees required in SCI Coins

Buy SCI

Saymatik Web3.0 Wallet

Google Play

App Store

Coming soon

Reference Key: lastname+year+titlefirstword+journalfirstword

Article Type (Article, Book, Proceedings etc.)

Add a reference in a raw form. Our automatic system will correct it later.

Characterization of cubic Li$$_{2}$$$$^{100}$$MoO$$_4$$ crystals for the CUPID experiment

Abstract

Keywords

Access

Citation

References

References

Blockchain Verification

Blockchain Readiness Checklist

Article Tokenized!

Token Features:

Saymatik Web3.0 Wallet