M. Grassi
University of California, Irvine
1 Papers
15 Citations
M. Grassi is an academic researcher from University of California, Irvine. The author has contributed to research in topics: Fission & Inverse beta decay. The author has an hindex of 1, co-authored 1 publications.
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Papers
Antineutrino energy spectrum unfolding based on the Daya Bay measurement and its applications
Fengpeng An,A. B. Balantekin,M. Bishai,Simon Blyth,Guofu Cao,Jun Cao,J. F. Chang,Y. H. Chang,H. S. Chen,Shaomin Chen,Yongzhu Chen,Yongzhu Chen,Yixue Chen,J. Cheng,Z. K. Cheng,J. J. Cherwinka,Ming Chung Chu,J. P. Cummings,Olivia Dalager,F. S. Deng,Y. Y. Ding,M. V. Diwan,Tadeas Dohnal,Dmitry Dolzhikov,J. Dove,M. Dvořák,D. A. Dwyer,J. P. Gallo,Maxim Gonchar,Guanghua Gong,Honghan Gong,M. Grassi,W. Q. Gu,Jingyuan Guo,L. Guo,X. H. Guo,Yuhang Guo,Z. Guo,R. W. Hackenburg,S. Hans,S. Hans,Miao He,K. M. Heeger,Y. K. Heng,Y. K. Hor,Y. B. Hsiung,B. Z. Hu,Jianrun Hu,T. Hu,Zhuojun Hu,Hanxiong Huang,Junwei Huang,X. T. Huang,Y. B. Huang,Patrick Huber,D. E. Jaffe,K. L. Jen,X. L. Ji,Xiaolu Ji,R. A. Johnson,D. C. Jones,L. Kang,S. H. Kettell,S. Kohn,Michael Kramer,Michael Kramer,T. J. Langford,J. Lee,J. H. C. Lee,R. T. Lei,Rupert Leitner,J. K. C. Leung,F. Li,Haifeng Li,Jianmin Li,Q. J. Li,Ruhui Li,S. F. Li,Shanfeng Li,Wei Li,Xinglong Li,X. Q. Li,Yufeng Li,Z. B. Li,H. Liang,Chi Lin,Guey-Lin Lin,Shengxin Lin,J. J. Ling,J. M. Link,L. S. Littenberg,B. R. Littlejohn,Jianglai Liu,Jinmei Liu,Jian Liu,C. Lu,Haoqi Lu,Kam-Biu Luk,Kam-Biu Luk,Bangzheng Ma,X. B. Ma,X. Y. Ma,Y. Q. Ma,R. C. Mandujano,Christopher L. Marshall,K. T. McDonald,R. D. McKeown,R. D. McKeown,Yue Meng,Jim Napolitano,Dmitry V. Naumov,E. Naumova,T. M. T. Nguyen,Juan Pedro Ochoa-Ricoux,Alexander Olshevskiy,H. R. Pan,J. Park,S. J. Patton,Jen-Chieh Peng,Chun S. J. Pun,F. Z. Qi,M. Qi,Xiaohui Qian,N. Raper,Jinjuan Ren,C. Morales Reveco,Richard Rosero,B. Roskovec,X. C. Ruan,H. M. Steiner,H. M. Steiner,J. L. Sun,Tomas Tmej,K. Treskov,W. H. Tse,C. E. Tull,B. Viren,Vit Vorobel,C. H. Wang,Jing Wang,M. Z. Wang,N. Y. Wang,R. G. Wang,W. Wang,W. Wang,X. Wang,Yuman Wang,Y. F. Wang,Z. Wang,Z. M. Wang,H. Y. Wei,L. H. Wei,Liangjian Wen,K. Whisnant,Christopher G. White,H. L. H. Wong,H. L. H. Wong,E. T. Worcester,Diru Wu,F. L. Wu,Qinglong Wu,W. J. Wu,D. M. Xia,Zhangquan Xie,Zhi-zhong Xing,H. K. Xu,J. L. Xu,Tianpeng Xu,Tian Xue,C. G. Yang,Lin Yang,Y. Z. Yang,Haifeng Yao,M. Ye,Minfang Yeh,Bing-Lin Young,Hongzhao Yu,Z. Y. Yu,Baobiao Yue,Vitalii Zavadskyi,S. Zeng,Yuda Zeng,Liang Zhan,Chao Zhang,Feiyang Zhang,H. H. Zhang,Jiawen Zhang,Qingmin Zhang,S. Zhang,X. T. Zhang,Yinhong Zhang,Y. X. Zhang,Yaoyu Zhang,Zhijian Zhang,Z. P. Zhang,Zhiyong Zhang,Jing Zhao,Rong Zhao,Li Zhou,H. L. Zhuang,Jiaheng Zou +200 more
TL;DR: In this article, the positron energy spectrum of 3.5 million antineutrino inverse beta decay reactions observed by the Daya Bay experiment, in combination with the fission rates of fissile isotopes in the reactor, is used to extract positron energies resulting from fission of specific isotopes.