Y. Shen
Fudan University
2 Papers
Y. Shen is an academic researcher from Fudan University. The author has contributed to research in topics: Shape analysis (digital geometry) & Detector. The author has an hindex of 2, co-authored 2 publications.
Chat about Author
Papers
The CUPID-Mo experiment for neutrinoless double-beta decay: performance and prospects
E. Armengaud,C. Augier,A. S. Barabash,F. Bellini,Giovanni Benato,Alain Benoit,M. Beretta,M. Beretta,L. Bergé,J. Billard,Yu. A. Borovlev,Ch. Bourgeois,M. Briere,V. B. Brudanin,Ph. Camus,Laura Cardani,N. Casali,A. Cazes,M. Chapellier,F. Charlieux,M. de Combarieu,I. Dafinei,F.A. Danevich,M. De Jesus,L. Dumoulin,K. Eitel,E. Elkhoury,Federico Ferri,B. K. Fujikawa,J. Gascon,L. Gironi,L. Gironi,A. Giuliani,V.D. Grigorieva,M. Gros,E. Guerard,D. L. Helis,H. Z. Huang,R. Huang,J. Johnston,A. Juillard,H. Khalife,M. Kleifges,V. V. Kobychev,Yu. G. Kolomensky,Yu. G. Kolomensky,S. I. Konovalov,A. Leder,P. Loaiza,L. Ma,E. P. Makarov,P. de Marcillac,L. Marini,L. Marini,S. Marnieros,D. Misiak,X. F. Navick,C. Nones,V. Novati,E. Olivieri,Jonathan Ouellet,L. Pagnanini,L. Pagnanini,P. Pari,L. Pattavina,B. Paul,M. Pavan,M. Pavan,Haiping Peng,G. Pessina,S. Pirro,D.V. Poda,O. G. Polischuk,Ezio Previtali,Ezio Previtali,Th. Redon,S. V. Rozov,C. Rusconi,V. Sanglard,K. Schäffner,B. Schmidt,Y. Shen,V.N. Shlegel,B. Siebenborn,Vasundhara Singh,S. Sorbino,C. Tomei,V. I. Tretyak,V.I. Umatov,L. Vagneron,Matias Velázquez,Marc Weber,B. Welliver,Lindley Winslow,M. Xue,E. Yakushev,A. S. Zolotarova +96 more
TL;DR: CUPID-Mo as mentioned in this paper is a bolometric experiment to search for neutrinoless double-beta decay in half-a-year's live time, which is the state-of-the-art in the world.
Pulse shape discrimination in CUPID-Mo using principal component analysis
R. Huang,E. Armengaud,C. Augier,A. S. Barabash,F. Bellini,Giovanni Benato,Alexandre Benoit,M. Beretta,M. Beretta,L. Bergé,J. Billard,Yu. A. Borovlev,Ch. Bourgeois,V. B. Brudanin,Ph. Camus,Laura Cardani,N. Casali,A. Cazes,M. Chapellier,F. Charlieux,M. de Combarieu,I. Dafinei,F.A. Danevich,M. De Jesus,T. Dixon,L. Dumoulin,K. Eitel,Federico Ferri,B. K. Fujikawa,J. Gascon,L. Gironi,L. Gironi,A. Giuliani,V.D. Grigorieva,M. Gros,E. Guerard,D. L. Helis,H. Z. Huang,J. Johnston,A. Juillard,H. Khalife,M. Kleifges,V.V. Kobychev,Yu. G. Kolomensky,Yu. G. Kolomensky,S. I. Konovalov,P. Loaiza,L. Ma,E. P. Makarov,P. de Marcillac,R. Mariam,L. Marini,L. Marini,S. Marnieros,D. Misiak,X-F. Navick,C. Nones,Eric B. Norman,E. Olivieri,Jonathan Ouellet,L. Pagnanini,P. Pari,L. Pattavina,B. Paul,M. Pavan,M. Pavan,Haiping Peng,G. Pessina,S. Pirro,D.V. Poda,O. G. Polischuk,Ezio Previtali,Ezio Previtali,Th. Redon,S. V. Rozov,C. Rusconi,V. Sanglard,J. A. Scarpaci,K. Schäffner,B. Schmidt,Y. Shen,V.N. Shlegel,B. Siebenborn,Vasundhara Singh,C. Tomei,V. I. Tretyak,V.I. Umatov,L. Vagneron,Matias Velázquez,Marc Weber,B. Welliver,Lindley Winslow,M. Xue,E. Yakushev,M. M. Zarytskyy,A. S. Zolotarova +95 more
TL;DR: CUPID-Mo as discussed by the authors uses 20 scintillating 100Mo-enriched Li2MoO4 bolometers to perform active suppression of α backgrounds, drastically reducing the expected background in the 0νββ signal region.