Corrigendum to “Performance test of the electromagnetic particle detectors for the LHAASO experiment” [Nucl. Instrum. Methods Phys. Res. A 1001 (2021) 165193] (Nuclear Inst. and Methods in Physics Research, A (2021) 1001, (S0168900221001777), (10.1016/j.nima.2021.165193))
Issued Date
2022-01-11
Resource Type
ISSN
01689002
Scopus ID
2-s2.0-85119044986
Journal Title
Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume
1022
Rights Holder(s)
SCOPUS
Bibliographic Citation
Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment Vol.1022 (2022)
Suggested Citation
Aharonian F., An Q., Axikegu, Bai L.X., Bai Y.X., Bao Y.W., Bastieri D., Bi X.J., Bi Y.J., Cai H., Cai J.T., Cao Z., Chang J., Chang J.F., Chang X.C., Chen B.M., Chen J., Chen L., Chen M.J., Chen M.L., Chen Q.H., Chen S.H., Chen S.Z., Chen T.L., Chen X.L., Chen Y., Cheng N., Cheng Y.D., Cui S.W., Cui X.H., Cui Y.D., Dai B.Z., Dai H.L., Dai Z.G., Danzengluobu, della Volpe D., Piazzoli B.D.E., Dong X.J., Fan J.H., Fan Y.Z., Fan Z.X., Fang J., Fang K., Feng C.F., Feng L., Feng S.H., Feng Y.L., Gao B., Gao C.D., Gao Q., Gao W., Ge M.M., Geng L.S., Gong G.H., Gou Q.B., Gu M.H., Guo J.G., Guo X.L., Guo Y.Q., Guo Y.Y., Han Y.A., He H.H., He H.N., He J.C., He S.L., He X.B., He Y., Heller M., Hor Y.K., Hou C., Hou X., Hu H.B., Hu S., Hu S.C., Hu X.J., Huang D.H., Huang Q.L., Huang W.H., Huang X.T., Huang Z.C., Ji F., Ji X.L., Jia H.Y., Jia K., Jiang K., Jiang Z.J., Jin C., Kuleshov D., Levochkin K., Li B., Li B.B., Li C., Li F., Li H., Li H.B., Li H.C., Li H.Y., Li J., Li K., Li W.L. Corrigendum to “Performance test of the electromagnetic particle detectors for the LHAASO experiment” [Nucl. Instrum. Methods Phys. Res. A 1001 (2021) 165193] (Nuclear Inst. and Methods in Physics Research, A (2021) 1001, (S0168900221001777), (10.1016/j.nima.2021.165193)). Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment Vol.1022 (2022). doi:10.1016/j.nima.2021.165986 Retrieved from: https://repository.li.mahidol.ac.th/handle/20.500.14594/87588
Title
Corrigendum to “Performance test of the electromagnetic particle detectors for the LHAASO experiment” [Nucl. Instrum. Methods Phys. Res. A 1001 (2021) 165193] (Nuclear Inst. and Methods in Physics Research, A (2021) 1001, (S0168900221001777), (10.1016/j.nima.2021.165193))
Author(s)
Aharonian F.
An Q.
Axikegu
Bai L.X.
Bai Y.X.
Bao Y.W.
Bastieri D.
Bi X.J.
Bi Y.J.
Cai H.
Cai J.T.
Cao Z.
Chang J.
Chang J.F.
Chang X.C.
Chen B.M.
Chen J.
Chen L.
Chen M.J.
Chen M.L.
Chen Q.H.
Chen S.H.
Chen S.Z.
Chen T.L.
Chen X.L.
Chen Y.
Cheng N.
Cheng Y.D.
Cui S.W.
Cui X.H.
Cui Y.D.
Dai B.Z.
Dai H.L.
Dai Z.G.
Danzengluobu
della Volpe D.
Piazzoli B.D.E.
Dong X.J.
Fan J.H.
Fan Y.Z.
Fan Z.X.
Fang J.
Fang K.
Feng C.F.
Feng L.
Feng S.H.
Feng Y.L.
Gao B.
Gao C.D.
Gao Q.
Gao W.
Ge M.M.
Geng L.S.
Gong G.H.
Gou Q.B.
Gu M.H.
Guo J.G.
Guo X.L.
Guo Y.Q.
Guo Y.Y.
Han Y.A.
He H.H.
He H.N.
He J.C.
He S.L.
He X.B.
He Y.
Heller M.
Hor Y.K.
Hou C.
Hou X.
Hu H.B.
Hu S.
Hu S.C.
Hu X.J.
Huang D.H.
Huang Q.L.
Huang W.H.
Huang X.T.
Huang Z.C.
Ji F.
Ji X.L.
Jia H.Y.
Jia K.
Jiang K.
Jiang Z.J.
Jin C.
Kuleshov D.
Levochkin K.
Li B.
Li B.B.
Li C.
Li F.
Li H.
Li H.B.
Li H.C.
Li H.Y.
Li J.
Li K.
Li W.L.
An Q.
Axikegu
Bai L.X.
Bai Y.X.
Bao Y.W.
Bastieri D.
Bi X.J.
Bi Y.J.
Cai H.
Cai J.T.
Cao Z.
Chang J.
Chang J.F.
Chang X.C.
Chen B.M.
Chen J.
Chen L.
Chen M.J.
Chen M.L.
Chen Q.H.
Chen S.H.
Chen S.Z.
Chen T.L.
Chen X.L.
Chen Y.
Cheng N.
Cheng Y.D.
Cui S.W.
Cui X.H.
Cui Y.D.
Dai B.Z.
Dai H.L.
Dai Z.G.
Danzengluobu
della Volpe D.
Piazzoli B.D.E.
Dong X.J.
Fan J.H.
Fan Y.Z.
Fan Z.X.
Fang J.
Fang K.
Feng C.F.
Feng L.
Feng S.H.
Feng Y.L.
Gao B.
Gao C.D.
Gao Q.
Gao W.
Ge M.M.
Geng L.S.
Gong G.H.
Gou Q.B.
Gu M.H.
Guo J.G.
Guo X.L.
Guo Y.Q.
Guo Y.Y.
Han Y.A.
He H.H.
He H.N.
He J.C.
He S.L.
He X.B.
He Y.
Heller M.
Hor Y.K.
Hou C.
Hou X.
Hu H.B.
Hu S.
Hu S.C.
Hu X.J.
Huang D.H.
Huang Q.L.
Huang W.H.
Huang X.T.
Huang Z.C.
Ji F.
Ji X.L.
Jia H.Y.
Jia K.
Jiang K.
Jiang Z.J.
Jin C.
Kuleshov D.
Levochkin K.
Li B.
Li B.B.
Li C.
Li F.
Li H.
Li H.B.
Li H.C.
Li H.Y.
Li J.
Li K.
Li W.L.
Author's Affiliation
State Key Laboratory of Particle Detection & Electronics
Yunnan Observatories
Nanjing University
Shanghai Astronomical Observatory Chinese Academy of Sciences
Institute for Nuclear Research of the Russian Academy of Sciences
Shandong University
Wuhan University
Yunnan University
Institute of High Energy Physics Chinese Academy of Science
University of Chinese Academy of Sciences
Yantai University
Guangzhou University
Tsinghua University
Sun Yat-Sen University
University of Science and Technology of China
Zhengzhou University
Institiúid Ard-Lénn Bhaile Átha Cliath
Università degli Studi di Napoli Federico II
Sichuan University
National Astronomical Observatories Chinese Academy of Sciences
Max-Planck-Institut für Kernphysik
Southwest Jiaotong University
Purple Mountain Observatory Chinese Academy of Sciences
Université de Genève
Hebei Normal University
Tibet University
TIANFU Cosmic Ray Research Center
Yunnan Observatories
Nanjing University
Shanghai Astronomical Observatory Chinese Academy of Sciences
Institute for Nuclear Research of the Russian Academy of Sciences
Shandong University
Wuhan University
Yunnan University
Institute of High Energy Physics Chinese Academy of Science
University of Chinese Academy of Sciences
Yantai University
Guangzhou University
Tsinghua University
Sun Yat-Sen University
University of Science and Technology of China
Zhengzhou University
Institiúid Ard-Lénn Bhaile Átha Cliath
Università degli Studi di Napoli Federico II
Sichuan University
National Astronomical Observatories Chinese Academy of Sciences
Max-Planck-Institut für Kernphysik
Southwest Jiaotong University
Purple Mountain Observatory Chinese Academy of Sciences
Université de Genève
Hebei Normal University
Tibet University
TIANFU Cosmic Ray Research Center
Other Contributor(s)
Abstract
The authors regret < (1) In the abstract: “[Formula presented] charge resolution for single particle of 18.5% and [Formula presented]” change to “[Formula presented]charge resolution for single particle of 22.2% and [Formula presented]” (2) Fig. 11 shows distribution of charge resolution of 4362EDs, this figure should be replaced with the followed figure. [Figure presented] (3) In the conclusion: “The charge resolution for single-track events of all tested EDs is about 18.5%”. – change to – “The charge resolution for single-track events of all tested EDs is about 22.2%”. >. The authors would like to apologize for any inconvenience caused. We are sorry that there is a mistake in the paper of “Performance test of the electromagnetic particle detectors for the LHAASO experiment”. That is the figure 11 was submitted by mistake. During the ED's performance test, the definition of charge resolution of single particle developed a little bit which brought confusions. In the beginning, we define [Formula presented], where MPV is the maximum of the fitted function. Then we use [Formula presented], however it is relate to the range of spectrum. Finally, we use [Formula presented], where, [Formula presented] using a Gaussian approximation in the paper. Figures of the charge resolution with these definitions were stored in the same directory. Thus, a wrong figure was uploaded during the paper submission. We are very sorry that our negligence causing inconvenience to everyone.