Study of BESIII trigger efficiencies with the 2018 <i>J</i>/<i>ψ</i> data

M. Ablikim; M. N. Achasov; P. Adlarson; S. Ahmed; M. Albrecht; R. Aliberti; A. Amoroso; M. R. An; Q. An; X. H. Bai; Y. Bai; O. Bakina; R. Baldini Ferroli; I. Balossino; Y. Ban; K. Begzsuren; N. Berger; M. Bertani; D. Bettoni; F. Bianchi; J. Bloms; A. Bortone; I. Boyko; R. A. Briere; H. Cai; X. Cai; A. Calcaterra; G. F. Cao; N. Cao; S. A. Cetin; J. F. Chang; W. L. Chang; G. Chelkov; D. Y. Chen; G. Chen; H. S. Chen; M. L. Chen; S. J. Chen; X. R. Chen; Y. B. Chen; Z. J Chen; W. S. Cheng; G. Cibinetto; F. Cossio; X. F. Cui; H. L. Dai; X. C. Dai; A. Dbeyssi; R. E. de Boer; D. Dedovich; Z. Y. Deng; A. Denig; I. Denysenko; M. Destefanis; F. De Mori; Y. Ding; C. Dong; J. Dong; L. Y. Dong; M. Y. Dong; X. Dong; S. X. Du; Y. L. Fan; J. Fang; S. S. Fang; Y. Fang; R. Farinelli; L. Fava; F. Feldbauer; G. Felici; C. Q. Feng; J. H. Feng; M. Fritsch; C. D. Fu; Y. Gao; Y. Gao; Y. Gao; Y. G. Gao; I. Garzia; P. T. Ge; C. Geng; E. M. Gersabeck; A Gilman; K. Goetzen; L. Gong; W. X. Gong; W. Gradl; M. Greco; L. M. Gu; M. H. Gu; S. Gu; Y. T. Gu; C. Y Guan; A. Q. Guo; L. B. Guo; R. P. Guo; Y. P. Guo; A. Guskov; T. T. Han; W. Y. Han; X. Q. Hao; F. A. Harris; H Hüsken; K. L. He; F. H. Heinsius; C. H. Heinz; T. Held; Y. K. Heng; C. Herold; M. Himmelreich; T. Holtmann; Y. R. Hou; Z. L. Hou; H. M. Hu; J. F. Hu; T. Hu; Y. Hu; G. S. Huang; L. Q. Huang; X. T. Huang; Y. P. Huang; Z. Huang; T. Hussain; W. Ikegami Andersson; W. Imoehl; M. Irshad; S. Jaeger; S. Janchiv; Q. Ji; Q. P. Ji; X. B. Ji; X. L. Ji; H. B. Jiang; X. S. Jiang; J. B. Jiao; Z. Jiao; S. Jin; Y. Jin; T. Johansson; N. Kalantar-Nayestanaki; X. S. Kang; R. Kappert; M. Kavatsyuk; B. C. Ke; I. K. Keshk; A. Khoukaz; P. Kiese; R. Kiuchi; R. Kliemt; L. Koch; O. B. Kolcu; B. Kopf; M. Kuemmel; M. Kuessner; A. Kupsc; M. G. Kurth; W. Kühn; J. J. Lane; J. S. Lange; P. Larin; A. Lavania; L. Lavezzi; Z. H. Lei; H. Leithoff; M. Lellmann; T. Lenz; C. Li; C. H. Li; Cheng Li; D. M. Li; F. Li; G. Li; H. Li; H. Li; H. B. Li; H. J. Li; J. L. Li; J. Q. Li; J. S. Li; Ke Li; L. K. Li; Lei Li; P. R. Li; S. Y. Li; W. D. Li; W. G. Li; X. H. Li; X. L. Li; Z. Y. Li; H. Liang; H. Liang; H. Liang; Y. F. Liang; Y. T. Liang; L. Z. Liao; J. Libby; C. X. Lin; B. J. Liu; C. X. Liu; D. Liu; F. H. Liu; Fang Liu; Feng Liu; H. B. Liu; H. M. Liu; Huanhuan Liu; Huihui Liu; J. B. Liu; J. L. Liu; J. Y. Liu; K. Liu; K. Y. Liu; Ke Liu; L. Liu; M. H. Liu; P. L. Liu; Q. Liu; Q. Liu; S. B. Liu; Shuai Liu; T. Liu; W. M. Liu; X. Liu; Y. Liu; Y. B. Liu; Z. A. Liu; Z. Q. Liu; X. C. Lou; F. X. Lu; F. X. Lu; H. J. Lu; J. D. Lu; J. G. Lu; X. L. Lu; Y. Lu; Y. P. Lu; C. L. Luo; M. X. Luo; P. W. Luo; T. Luo; X. L. Luo; S. Lusso; X. R. Lyu; F. C. Ma; H. L. Ma; L. L. Ma; M. M. Ma; Q. M. Ma; R. Q. Ma; R. T. Ma; X. X. Ma; X. Y. Ma; F. E. Maas; M. Maggiora; S. Maldaner; S. Malde; Q. A. Malik; A. Mangoni; Y. J. Mao; Z. P. Mao; S. Marcello; Z. X. Meng; J. G. Messchendorp; G. Mezzadri; T. J. Min; R. E. Mitchell; X. H. Mo; Y. J. Mo; N. Yu. Muchnoi; H. Muramatsu; S. Nakhoul; Y. Nefedov; F. Nerling; I. B. Nikolaev; Z. Ning; S. Nisar; S. L. Olsen; Q. Ouyang; S. Pacetti; X. Pan; Y. Pan; A. Pathak; P. Patteri; M. Pelizaeus; H. P. Peng; K. Peters; J. Pettersson; J. L. Ping; R. G. Ping; R. Poling; V. Prasad; H. Qi; H. R. Qi; K. H. Qi; M. Qi; T. Y. Qi; T. Y. Qi; S. Qian; W.-B. Qian; Z. Qian; C. F. Qiao; L. Q. Qin; X. S. Qin; Z. H. Qin; J. F. Qiu; S. Q. Qu; K. H. Rashid; K. Ravindran; C. F. Redmer; A. Rivetti; V. Rodin; M. Rolo; G. Rong; Ch. Rosner; M. Rump; H. S. Sang; A. Sarantsev; Y. Schelhaas; C. Schnier; K. Schoenning; M. Scodeggio; D. C. Shan; W. Shan; X. Y. Shan; J. F. Shangguan; M. Shao; C. P. Shen; P. X. Shen; X. Y. Shen; H. C. Shi; R. S. Shi; X. Shi; X. D Shi; W. M. Song; Y. X. Song; S. Sosio; S. Spataro; K. X. Su; P. P. Su; F. F. Sui; G. X. Sun; H. K. Sun; J. F. Sun; L. Sun; S. S. Sun; T. Sun; W. Y. Sun; W. Y. Sun; X Sun; Y. J. Sun; Y. K. Sun; Y. Z. Sun; Z. T. Sun; Y. H. Tan; Y. X. Tan; C. J. Tang; G. Y. Tang; J. Tang; J. X. Teng; V. Thoren; I. Uman; B. Wang; C. W. Wang; D. Y. Wang; H. J. Wang; H. P. Wang; K. Wang; L. L. Wang; M. Wang; M. Z. Wang; Meng Wang; W. Wang; W. H. Wang; W. P. Wang; X. Wang; X. F. Wang; X. L. Wang; Y. Wang; Y. Wang; Y. D. Wang; Y. F. Wang; Y. Q. Wang; Y. Y. Wang; Z. Wang; Wang Z. Y.; Ziyi Wang; Zongyuan Wang; D. H. Wei; P. Weidenkaff; F. Weidner; S. P. Wen; D. J. White; U. Wiedner; G. Wilkinson; M. Wolke; L. Wollenberg; J. F. Wu; L. H. Wu; L. J. Wu; X. Wu; Z. Wu; L. Xia; H. Xiao; S. Y. Xiao; Z. J. Xiao; X. H. Xie; Y. G. Xie; Y. H. Xie; T. Y. Xing; G. F. Xu; Q. J. Xu; W. Xu; X. P. Xu; F. Yan; L. Yan; W. B. Yan; W. C. Yan; Xu Yan; H. J. Yang; H. X. Yang; L. Yang; S. L. Yang; Y. X. Yang; Yifan Yang; Zhi Yang; M. Ye; M. H. Ye; J. H. Yin; Z. Y. You; B. X. Yu; C. X. Yu; G. Yu; J. S. Yu; T. Yu; C. Z. Yuan; L. Yuan; X. Q. Yuan; Y. Yuan; Z. Y. Yuan; C. X. Yue; A. Yuncu; A. A. Zafar; Y. Zeng; B. X. Zhang; Guangyi Zhang; H. Zhang; H. H. Zhang; H. H. Zhang; H. Y. Zhang; J. J. Zhang; J. L. Zhang; J. Q. Zhang; J. W. Zhang; J. Y. Zhang; J. Z. Zhang; Jianyu Zhang; Jiawei Zhang; L. Q. Zhang; Lei Zhang; S. Zhang; S. F. Zhang; Shulei Zhang; X. D. Zhang; X. Y. Zhang; Y. Zhang; Y. H. Zhang; Y. T. Zhang; Yan Zhang; Yao Zhang; Yi Zhang; Z. H. Zhang; Z. Y. Zhang; G. Zhao; J. Zhao; J. Y. Zhao; J. Z. Zhao; Lei Zhao; Ling Zhao; M. G. Zhao; Q. Zhao; S. J. Zhao; Y. B. Zhao; Y. X. Zhao; Z. G. Zhao; A. Zhemchugov; B. Zheng; J. P. Zheng; Y. Zheng; Y. H. Zheng; B. Zhong; C. Zhong; L. P. Zhou; Q. Zhou; X. Zhou; X. K. Zhou; X. R. Zhou; A. N. Zhu; J. Zhu; K. Zhu; K. J. Zhu; S. H. Zhu; T. J. Zhu; W. J. Zhu; W. J. Zhu; Y. C. Zhu; Z. A. Zhu; B. S. Zou; J. H. Zou; (BESIII Collaboration)

doi:10.1088/1674-1137/abcfab

Chinese Physics C> 2021, Vol. 45> Issue(2) : 023002 DOI: 10.1088/1674-1137/abcfab

Study of BESIII trigger efficiencies with the 2018 J/ψ data

M. Ablikim ¹ ,
M. N. Achasov ^10,c ,
P. Adlarson ⁶⁷ ,
S. Ahmed ¹⁵ ,
M. Albrecht ⁴ ,
R. Aliberti ²⁸ ,
A. Amoroso ^66,66 ,
M. R. An ³² ,
Q. An ^49,63 ,
X. H. Bai ⁵⁷ ,
Y. Bai ⁴⁸ ,
O. Bakina ²⁹ ,
R. Baldini Ferroli ²³ ,
I. Balossino ^24,1 ,
Y. Ban ^38,k ,
K. Begzsuren ²⁶ ,
N. Berger ²⁸ ,
M. Bertani ²³ ,
D. Bettoni ²⁴ ,
F. Bianchi ^66,66 ,
J. Bloms ⁶⁰ ,
A. Bortone ^66,66 ,
I. Boyko ²⁹ ,
R. A. Briere ⁵ ,
H. Cai ⁶⁸ ,
X. Cai ^1,49 ,
A. Calcaterra ²³ ,
G. F. Cao ^1,54 ,
N. Cao ^1,54 ,
S. A. Cetin ⁵³ ,
J. F. Chang ^1,49 ,
W. L. Chang ^1,54 ,
G. Chelkov ^29,b ,
D. Y. Chen ⁶ ,
G. Chen ¹ ,
H. S. Chen ^1,54 ,
M. L. Chen ^1,49 ,
S. J. Chen ³⁵ ,
X. R. Chen ²⁵ ,
Y. B. Chen ^1,49 ,
Z. J Chen ^20,l ,
W. S. Cheng ⁶⁶ ,
G. Cibinetto ²⁴ ,
F. Cossio ⁶⁶ ,
X. F. Cui ³⁶ ,
H. L. Dai ^1,49 ,
X. C. Dai ^1,54 ,
A. Dbeyssi ¹⁵ ,
R. E. de Boer ⁴ ,
D. Dedovich ²⁹ ,
Z. Y. Deng ¹ ,
A. Denig ²⁸ ,
I. Denysenko ²⁹ ,
M. Destefanis ^66,66 ,
F. De Mori ^66,66 ,
Y. Ding ³³ ,
C. Dong ³⁶ ,
J. Dong ^1,49 ,
L. Y. Dong ^1,54 ,
M. Y. Dong ¹ ,
X. Dong ⁶⁸ ,
S. X. Du ^c ,
Y. L. Fan ⁶⁸ ,
J. Fang ^1,49 ,
S. S. Fang ^1,54 ,
Y. Fang ¹ ,
R. Farinelli ²⁴ ,
L. Fava ^66,66 ,
F. Feldbauer ⁴ ,
G. Felici ²³ ,
C. Q. Feng ^49,63 ,
J. H. Feng ⁵⁰ ,
M. Fritsch ⁴ ,
C. D. Fu ¹ ,
Y. Gao ⁶⁴ ,
Y. Gao ^49,63 ,
Y. Gao ^38,k ,
Y. G. Gao ⁶ ,
I. Garzia ^24,24 ,
P. T. Ge ⁶⁸ ,
C. Geng ⁵⁰ ,
E. M. Gersabeck ⁵⁸ ,
A Gilman ⁶¹ ,
K. Goetzen ¹¹ ,
L. Gong ³³ ,
W. X. Gong ^1,49 ,
W. Gradl ²⁸ ,
M. Greco ^66,66 ,
L. M. Gu ³⁵ ,
M. H. Gu ^1,49 ,
S. Gu ² ,
Y. T. Gu ¹³ ,
C. Y Guan ^1,54 ,
A. Q. Guo ²² ,
L. B. Guo ³⁴ ,
R. P. Guo ⁴⁰ ,
Y. P. Guo ^9,h ,
A. Guskov ²⁹ ,
T. T. Han ⁴¹ ,
W. Y. Han ³² ,
X. Q. Hao ¹⁶ ,
F. A. Harris ⁵⁶ ,
H Hüsken ^22,28 ,
K. L. He ^1,54 ,
F. H. Heinsius ⁴ ,
C. H. Heinz ²⁸ ,
T. Held ⁴ ,
Y. K. Heng ¹ ,
C. Herold ⁵¹ ,
M. Himmelreich ^11,f ,
T. Holtmann ⁴ ,
Y. R. Hou ⁵⁴ ,
Z. L. Hou ¹ ,
H. M. Hu ^1,54 ,
J. F. Hu ⁴⁷ ,
T. Hu ¹ ,
Y. Hu ¹ ,
G. S. Huang ^49,63 ,
L. Q. Huang ⁶⁴ ,
X. T. Huang ⁴¹ ,
Y. P. Huang ¹ ,
Z. Huang ^38,k ,
T. Hussain ⁶⁵ ,
W. Ikegami Andersson ⁶⁷ ,
W. Imoehl ²² ,
M. Irshad ^49,63 ,
S. Jaeger ⁴ ,
S. Janchiv ^26,j ,
Q. Ji ¹ ,
Q. P. Ji ¹⁶ ,
X. B. Ji ^1,54 ,
X. L. Ji ^1,49 ,
H. B. Jiang ⁴¹ ,
X. S. Jiang ¹ ,
J. B. Jiao ⁴¹ ,
Z. Jiao ¹⁸ ,
S. Jin ³⁵ ,
Y. Jin ⁵⁷ ,
T. Johansson ⁶⁷ ,
N. Kalantar-Nayestanaki ⁵⁵ ,
X. S. Kang ³³ ,
R. Kappert ⁵⁵ ,
M. Kavatsyuk ⁵⁵ ,
B. C. Ke ^1,43 ,
I. K. Keshk ⁴ ,
A. Khoukaz ⁶⁰ ,
P. Kiese ²⁸ ,
R. Kiuchi ¹ ,
R. Kliemt ¹¹ ,
L. Koch ³⁰ ,
O. B. Kolcu ^53,e ,
B. Kopf ⁴ ,
M. Kuemmel ⁴ ,
M. Kuessner ⁴ ,
A. Kupsc ⁶⁷ ,
M. G. Kurth ^1,54 ,
W. Kühn ³⁰ ,
J. J. Lane ⁵⁸ ,
J. S. Lange ³⁰ ,
P. Larin ¹⁵ ,
A. Lavania ²¹ ,
L. Lavezzi ^66,66,1 ,
Z. H. Lei ^49,63 ,
H. Leithoff ²⁸ ,
M. Lellmann ²⁸ ,
T. Lenz ²⁸ ,
C. Li ³⁹ ,
C. H. Li ³² ,
Cheng Li ^49,63 ,
D. M. Li ^c ,
F. Li ^1,49 ,
G. Li ¹ ,
H. Li ⁴³ ,
H. Li ^49,63 ,
H. B. Li ^1,54 ,
H. J. Li ^9,h ,
J. L. Li ⁴¹ ,
J. Q. Li ⁴ ,
J. S. Li ⁵⁰ ,
Ke Li ¹ ,
L. K. Li ¹ ,
Lei Li ³ ,
P. R. Li ³¹ ,
S. Y. Li ⁵² ,
W. D. Li ^1,54 ,
W. G. Li ¹ ,
X. H. Li ^49,63 ,
X. L. Li ⁴¹ ,
Z. Y. Li ⁵⁰ ,
H. Liang ^49,63 ,
H. Liang ^1,54 ,
H. Liang ²⁷ ,
Y. F. Liang ⁴⁵ ,
Y. T. Liang ²⁵ ,
L. Z. Liao ^1,54 ,
J. Libby ²¹ ,
C. X. Lin ⁵⁰ ,
B. J. Liu ¹ ,
C. X. Liu ¹ ,
D. Liu ^49,63 ,
F. H. Liu ⁴⁴ ,
Fang Liu ¹ ,
Feng Liu ⁶ ,
H. B. Liu ¹³ ,
H. M. Liu ^1,54 ,
Huanhuan Liu ¹ ,
Huihui Liu ¹⁷ ,
J. B. Liu ^49,63 ,
J. L. Liu ⁶⁴ ,
J. Y. Liu ^1,54 ,
K. Liu ¹ ,
K. Y. Liu ³³ ,
Ke Liu ⁶ ,
L. Liu ^49,63 ,
M. H. Liu ^9,h ,
P. L. Liu ¹ ,
Q. Liu ⁵⁴ ,
Q. Liu ⁶⁸ ,
S. B. Liu ^49,63 ,
Shuai Liu ⁴⁶ ,
T. Liu ^1,54 ,
W. M. Liu ^49,63 ,
X. Liu ³¹ ,
Y. Liu ³¹ ,
Y. B. Liu ³⁶ ,
Z. A. Liu ¹ ,
Z. Q. Liu ⁴¹ ,
X. C. Lou ¹ ,
F. X. Lu ¹⁶ ,
F. X. Lu ⁵⁰ ,
H. J. Lu ¹⁸ ,
J. D. Lu ^1,54 ,
J. G. Lu ^1,49 ,
X. L. Lu ¹ ,
Y. Lu ¹ ,
Y. P. Lu ^1,49 ,
C. L. Luo ³⁴ ,
M. X. Luo ^b ,
P. W. Luo ⁵⁰ ,
T. Luo ^9,h ,
X. L. Luo ^1,49 ,
S. Lusso ⁶⁶ ,
X. R. Lyu ⁵⁴ ,
F. C. Ma ³³ ,
H. L. Ma ¹ ,
L. L. Ma ⁴¹ ,
M. M. Ma ^1,54 ,
Q. M. Ma ¹ ,
R. Q. Ma ^1,54 ,
R. T. Ma ⁵⁴ ,
X. X. Ma ^1,54 ,
X. Y. Ma ^1,49 ,
F. E. Maas ¹⁵ ,
M. Maggiora ^66,66 ,
S. Maldaner ⁴ ,
S. Malde ⁶¹ ,
Q. A. Malik ⁶⁵ ,
A. Mangoni ²³ ,
Y. J. Mao ^38,k ,
Z. P. Mao ¹ ,
S. Marcello ^66,66 ,
Z. X. Meng ⁵⁷ ,
J. G. Messchendorp ⁵⁵ ,
G. Mezzadri ^24,1 ,
T. J. Min ³⁵ ,
R. E. Mitchell ²² ,
X. H. Mo ¹ ,
Y. J. Mo ⁶ ,
N. Yu. Muchnoi ^10,c ,
H. Muramatsu ⁵⁹ ,
S. Nakhoul ^11,f ,
Y. Nefedov ²⁹ ,
F. Nerling ^11,f ,
I. B. Nikolaev ^10,c ,
Z. Ning ^1,49 ,
S. Nisar ^8,i ,
S. L. Olsen ⁵⁴ ,
Q. Ouyang ¹ ,
S. Pacetti ^23,23 ,
X. Pan ^9,h ,
Y. Pan ⁵⁸ ,
A. Pathak ¹ ,
P. Patteri ²³ ,
M. Pelizaeus ⁴ ,
H. P. Peng ^49,63 ,
K. Peters ^11,f ,
J. Pettersson ⁶⁷ ,
J. L. Ping ³⁴ ,
R. G. Ping ^1,54 ,
R. Poling ⁵⁹ ,
V. Prasad ^49,63 ,
H. Qi ^49,63 ,
H. R. Qi ⁵² ,
K. H. Qi ²⁵ ,
M. Qi ³⁵ ,
T. Y. Qi ² ,
T. Y. Qi ⁹ ,
S. Qian ^1,49 ,
W.-B. Qian ⁵⁴ ,
Z. Qian ⁵⁰ ,
C. F. Qiao ⁵⁴ ,
L. Q. Qin ¹² ,
X. S. Qin ⁴ ,
Z. H. Qin ^1,49 ,
J. F. Qiu ¹ ,
S. Q. Qu ³⁶ ,
K. H. Rashid ⁶⁵ ,
K. Ravindran ²¹ ,
C. F. Redmer ²⁸ ,
A. Rivetti ⁶⁶ ,
V. Rodin ⁵⁵ ,
M. Rolo ⁶⁶ ,
G. Rong ^1,54 ,
Ch. Rosner ¹⁵ ,
M. Rump ⁶⁰ ,
H. S. Sang ⁶³ ,
A. Sarantsev ^29,d ,
Y. Schelhaas ²⁸ ,
C. Schnier ⁴ ,
K. Schoenning ⁶⁷ ,
M. Scodeggio ^24,24 ,
D. C. Shan ⁴⁶ ,
W. Shan ¹⁹ ,
X. Y. Shan ^49,63 ,
J. F. Shangguan ⁴⁶ ,
M. Shao ^49,63 ,
C. P. Shen ⁹ ,
P. X. Shen ³⁶ ,
X. Y. Shen ^1,54 ,
H. C. Shi ^49,63 ,
R. S. Shi ^1,54 ,
X. Shi ^1,49 ,
X. D Shi ^49,63 ,
W. M. Song ^1,27 ,
Y. X. Song ^38,k ,
S. Sosio ^66,66 ,
S. Spataro ^66,66 ,
K. X. Su ⁶⁸ ,
P. P. Su ⁴⁶ ,
F. F. Sui ⁴¹ ,
G. X. Sun ¹ ,
H. K. Sun ¹ ,
J. F. Sun ¹⁶ ,
L. Sun ⁶⁸ ,
S. S. Sun ^1,54 ,
T. Sun ^1,54 ,
W. Y. Sun ³⁴ ,
W. Y. Sun ²⁷ ,
X Sun ^20,l ,
Y. J. Sun ^49,63 ,
Y. K. Sun ^49,63 ,
Y. Z. Sun ¹ ,
Z. T. Sun ¹ ,
Y. H. Tan ⁶⁸ ,
Y. X. Tan ^49,63 ,
C. J. Tang ⁴⁵ ,
G. Y. Tang ¹ ,
J. Tang ⁵⁰ ,
J. X. Teng ^49,63 ,
V. Thoren ⁶⁷ ,
I. Uman ⁵³ ,
B. Wang ¹ ,
C. W. Wang ³⁵ ,
D. Y. Wang ^38,k ,
H. J. Wang ³¹ ,
H. P. Wang ^1,54 ,
K. Wang ^1,49 ,
L. L. Wang ¹ ,
M. Wang ⁴¹ ,
M. Z. Wang ^38,k ,
Meng Wang ^1,54 ,
W. Wang ⁵⁰ ,
W. H. Wang ⁶⁸ ,
W. P. Wang ^49,63 ,
X. Wang ^38,k ,
X. F. Wang ³¹ ,
X. L. Wang ^9,h ,
Y. Wang ^49,63 ,
Y. Wang ⁵⁰ ,
Y. D. Wang ³⁷ ,
Y. F. Wang ¹ ,
Y. Q. Wang ¹ ,
Y. Y. Wang ³¹ ,
Z. Wang ^1,49 ,
Wang Z. Y. ^{1, 52} ,
Ziyi Wang ⁵⁴ ,
Zongyuan Wang ^1,54 ,
D. H. Wei ¹² ,
P. Weidenkaff ²⁸ ,
F. Weidner ⁶⁰ ,
S. P. Wen ¹ ,
D. J. White ⁵⁸ ,
U. Wiedner ⁴ ,
G. Wilkinson ⁶¹ ,
M. Wolke ⁶⁷ ,
L. Wollenberg ⁴ ,
J. F. Wu ^1,54 ,
L. H. Wu ¹ ,
L. J. Wu ^1,54 ,
X. Wu ^9,h ,
Z. Wu ^1,49 ,
L. Xia ^49,63 ,
H. Xiao ^9,h ,
S. Y. Xiao ¹ ,
Z. J. Xiao ³⁴ ,
X. H. Xie ^38,k ,
Y. G. Xie ^1,49 ,
Y. H. Xie ⁶ ,
T. Y. Xing ^1,54 ,
G. F. Xu ¹ ,
Q. J. Xu ¹⁴ ,
W. Xu ^1,54 ,
X. P. Xu ⁴⁶ ,
F. Yan ^9,h ,
L. Yan ^9,h ,
W. B. Yan ^49,63 ,
W. C. Yan ^c ,
Xu Yan ⁴⁶ ,
H. J. Yang ^42,g ,
H. X. Yang ¹ ,
L. Yang ⁴³ ,
S. L. Yang ⁵⁴ ,
Y. X. Yang ¹² ,
Yifan Yang ^1,54 ,
Zhi Yang ²⁵ ,
M. Ye ^1,49 ,
M. H. Ye ⁷ ,
J. H. Yin ¹ ,
Z. Y. You ⁵⁰ ,
B. X. Yu ¹ ,
C. X. Yu ³⁶ ,
G. Yu ^1,54 ,
J. S. Yu ^20,l ,
T. Yu ⁶⁴ ,
C. Z. Yuan ^1,54 ,
L. Yuan ² ,
X. Q. Yuan ^38,k ,
Y. Yuan ¹ ,
Z. Y. Yuan ⁵⁰ ,
C. X. Yue ³² ,
A. Yuncu ^53,a ,
A. A. Zafar ⁶⁵ ,
Y. Zeng ^20,l ,
B. X. Zhang ¹ ,
Guangyi Zhang ¹⁶ ,
H. Zhang ⁶³ ,
H. H. Zhang ⁵⁰ ,
H. H. Zhang ²⁷ ,
H. Y. Zhang ^1,49 ,
J. J. Zhang ⁴³ ,
J. L. Zhang ^a ,
J. Q. Zhang ³⁴ ,
J. W. Zhang ¹ ,
J. Y. Zhang ¹ ,
J. Z. Zhang ^1,54 ,
Jianyu Zhang ^1,54 ,
Jiawei Zhang ^1,54 ,
L. Q. Zhang ⁵⁰ ,
Lei Zhang ³⁵ ,
S. Zhang ⁵⁰ ,
S. F. Zhang ³⁵ ,
Shulei Zhang ^20,l ,
X. D. Zhang ³⁷ ,
X. Y. Zhang ⁴¹ ,
Y. Zhang ⁶¹ ,
Y. H. Zhang ^1,49 ,
Y. T. Zhang ^49,63 ,
Yan Zhang ^49,63 ,
Yao Zhang ¹ ,
Yi Zhang ^9,h ,
Z. H. Zhang ⁶ ,
Z. Y. Zhang ⁶⁸ ,
G. Zhao ¹ ,
J. Zhao ³² ,
J. Y. Zhao ^1,54 ,
J. Z. Zhao ^1,49 ,
Lei Zhao ^49,63 ,
Ling Zhao ¹ ,
M. G. Zhao ³⁶ ,
Q. Zhao ¹ ,
S. J. Zhao ^c ,
Y. B. Zhao ^1,49 ,
Y. X. Zhao ²⁵ ,
Z. G. Zhao ^49,63 ,
A. Zhemchugov ^29,b ,
B. Zheng ⁶⁴ ,
J. P. Zheng ^1,49 ,
Y. Zheng ^38,k ,
Y. H. Zheng ⁵⁴ ,
B. Zhong ³⁴ ,
C. Zhong ⁶⁴ ,
L. P. Zhou ^1,54 ,
Q. Zhou ^1,54 ,
X. Zhou ⁶⁸ ,
X. K. Zhou ⁵⁴ ,
X. R. Zhou ^49,63 ,
A. N. Zhu ^1,54 ,
J. Zhu ³⁶ ,
K. Zhu ¹ ,
K. J. Zhu ¹ ,
S. H. Zhu ⁶² ,
T. J. Zhu ^a ,
W. J. Zhu ³⁶ ,
W. J. Zhu ^9,h ,
Y. C. Zhu ^49,63 ,
Z. A. Zhu ^1,54 ,
B. S. Zou ¹ ,
J. H. Zou ¹ ,
(BESIII Collaboration)

1.
Institute of High Energy Physics, Beijing 100049, China
2.
Beihang University, Beijing 100191, China
3.
Beijing Institute of Petrochemical Technology, Beijing 102617, China
4.
Bochum Ruhr-University, D-44780 Bochum, Germany
5.
Carnegie Mellon University, Pittsburgh, Pennsylvania 15213, USA
6.
Central China Normal University, Wuhan 430079, China
7.
China Center of Advanced Science and Technology, Beijing 100190, China
8.
COMSATS University Islamabad, Lahore Campus, Defence Road, Off Raiwind Road, 54000 Lahore, Pakistan
9.
Fudan University, Shanghai 200443, China
10.
G.I. Budker Institute of Nuclear Physics SB RAS (BINP), Novosibirsk 630090, Russia
11.
GSI Helmholtzcentre for Heavy Ion Research GmbH, D-64291 Darmstadt, Germany
12.
Guangxi Normal University, Guilin 541004, China
13.
Guangxi University, Nanning 530004, China
14.
Hangzhou Normal University, Hangzhou 310036, China
15.
Helmholtz Institute Mainz, Johann-Joachim-Becher-Weg 45, D-55099 Mainz, Germany
16.
Henan Normal University, Xinxiang 453007, China
17.
Henan University of Science and Technology, Luoyang 471003, China
18.
Huangshan College, Huangshan 245000, China
19.
Hunan Normal University, Changsha 410081, China
20.
Hunan University, Changsha 410082, China
21.
Indian Institute of Technology Madras, Chennai 600036, India
22.
Indiana University, Bloomington, Indiana 47405, USA
23.
(A)INFN Laboratori Nazionali di Frascati, I-00044, Frascati, Italy; (B)INFN Sezione di Perugia, I-06100, Perugia, Italy; (C)University of Perugia, I-06100, Perugia, Italy
24.
(A)INFN Sezione di Ferrara, I-44122, Ferrara, Italy; (B)University of Ferrara, I-44122, Ferrara, Italy
25.
Institute of Modern Physics, Lanzhou 730000, China
26.
Institute of Physics and Technology, Peace Ave. 54B, Ulaanbaatar 13330, Mongolia
27.
Jilin University, Changchun 130012, China
28.
Johannes Gutenberg University of Mainz, Johann-Joachim-Becher-Weg 45, D-55099 Mainz, Germany
29.
Joint Institute for Nuclear Research, 141980 Dubna, Moscow region, Russia
30.
Justus-Liebig-Universitaet Giessen, II. Physikalisches Institut, Heinrich-Buff-Ring 16, D-35392 Giessen, Germany
31.
KVI-CART, University of Groningen, NL-9747 AA Groningen, The Netherlands
32.
Lanzhou University, Lanzhou 730000, China
33.
Liaoning Normal University, Dalian 116029, China
34.
Liaoning University, Shenyang 110036, China
35.
Nanjing Normal University, Nanjing 210023, China
36.
Nanjing University, Nanjing 210093, China
37.
Nankai University, Tianjin 300071, China
38.
Peking University, Beijing 100871, China
39.
Qufu Normal University, Qufu 273165, China
40.
Shandong Normal University, Jinan 250014, China
41.
Shandong University, Jinan 250100, China
42.
Shanghai Jiao Tong University, Shanghai 200240, China
43.
Shanxi Normal University, Linfen 041004, China
44.
Shanxi University, Taiyuan 030006, China
45.
Sichuan University, Chengdu 610064, China
46.
Soochow University, Suzhou 215006, China
47.
Southeast University, Nanjing 211100, China
48.
State Key Laboratory of Particle Detection and Electronics, Beijing 100049, Hefei 230026, China
49.
Sun Yat-Sen University, Guangzhou 510275, China
50.
Tsinghua University, Beijing 100084, China
51.
(A)Ankara University, 06100 Tandogan, Ankara, Turkey; (B)Istanbul Bilgi University, 34060 Eyup, Istanbul, Turkey; (C)Uludag University, 16059 Bursa, Turkey; (D)Near East University, Nicosia, North Cyprus, Mersin 10, Turkey
52.
University of Chinese Academy of Sciences, Beijing 100049, China
53.
University of Hawaii, Honolulu, Hawaii 96822, USA
54.
University of Jinan, Jinan 250022, China
55.
University of Manchester, Oxford Road, Manchester, M13 9PL, United Kingdom
56.
University of Minnesota, Minneapolis, Minnesota 55455, USA
57.
University of Muenster, Wilhelm-Klemm-Str. 9, 48149 Muenster, Germany
58.
University of Oxford, Keble Rd, Oxford, UK OX13RH
59.
University of Science and Technology Liaoning, Anshan 114051, China
60.
University of Science and Technology of China, Hefei 230026, China
61.
University of South China, Hengyang 421001, China
62.
University of the Punjab, Lahore-54590, Pakistan
63.
(A) University of Turin, I-10125, Turin, Italy; (B) University of Eastern Piedmont, I-15121, Alessandria, Italy; (C) INFN, I-10125, Turin, Italy
64.
Uppsala University, Box 516, SE-75120 Uppsala, Sweden
65.
Wuhan University, Wuhan 430072, China
66.
Xinyang Normal University, Xinyang 464000, China
67.
Zhejiang University, Hangzhou 310027, China
68.
Zhengzhou University, Zhengzhou 450001, China
a.
Also at Bogazici University, 34342 Istanbul, Turkey
b.
Also at the Moscow Institute of Physics and Technology, Moscow 141700, Russia
c.
Also at the Novosibirsk State University, Novosibirsk, 630090, Russia
d.
Also at the NRC "Kurchatov Institute", PNPI, 188300, Gatchina, Russia
e.
Also at Istanbul Arel University, 34295 Istanbul, Turkey
f.
Also at Goethe University Frankfurt, 60323 Frankfurt am Main, Germany
g.
Also at Key Laboratory for Particle Physics, Astrophysics and Cosmology, Ministry of Education; Shanghai Key Laboratory for Particle Physics and Cosmology; Institute of Nuclear and Particle Physics, Shanghai 200240, China
h.
Also at Key Laboratory of Nuclear Physics and Ion-beam Application (MOE) and Institute of Modern Physics, Fudan University, Shanghai 200443, China
i.
Also at Harvard University, Department of Physics, Cambridge, MA, 02138, USA
j.
Currently at: Institute of Physics and Technology, Peace Ave.54B, Ulaanbaatar 13330, Mongolia
k.
Also at State Key Laboratory of Nuclear Physics and Technology, Peking University, Beijing 100871, China
l.
School of Physics and Electronics, Hunan University, Changsha 410082, China

Abstract
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Abstract：
Using a dedicated data sample taken in 2018 on the J/ψ peak, we perform a detailed study of the trigger efficiencies of the BESIII detector. The efficiencies are determined from three representative physics processes, namely Bhabha scattering, dimuon production and generic hadronic events with charged particles. The combined efficiency of all active triggers approaches 100% in most cases, with uncertainties small enough not to affect most physics analyses.
- BESIII ,
- trigger efficiency ,
- Bhabha ,
- dimuon ,
- hadronic events

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[2]	Feng Zhang , Jian-Xiong Wang . Study of the rare decay ${ \boldsymbol J/\boldsymbol\psi \to {\bf 2}{\boldsymbol\gamma}{\boldsymbol{+hadrons}} }$ at the BESIII. Chinese Physics C, 2022, 46(9): 093109. doi: 10.1088/1674-1137/ac7299
[3]	M. Ablikim , M. N. Achasov , P. Adlarson , S. Ahmed , M. Albrecht , R. Aliberti , A. Amoroso , M. R. An , Q. An , X. H. Bai , Y. Bai , O. Bakina , R. Baldini Ferroli , I. Balossino , Y. Ban , K. Begzsuren , N. Berger , M. Bertani , D. Bettoni , F. Bianchi , J. Bloms , A. Bortone , I. Boyko , R. A. Briere , H. Cai , X. Cai , A. Calcaterra , G. F. Cao , N. Cao , S. A. Cetin , J. F. Chang , W. L. Chang , G. Chelkov , D. Y. Chen , G. Chen , H. S. Chen , M. L. Chen , S. J. Chen , X. R. Chen , Y. B. Chen , Z. J. Chen , W. S. Cheng , G. Cibinetto , F. Cossio , X. F. Cui , H. L. Dai , X. C. Dai , A. Dbeyssi , R. E. de Boer , D. Dedovich , Z. Y. Deng , A. Denig , I. Denysenko , M. Destefanis , F. De Mori , Y. Ding , C. Dong , J. Dong , L. Y. Dong , M. Y. Dong , X. Dong , S. X. Du , Y. L. Fan , J. Fang , S. S. Fang , Y. Fang , R. Farinelli , L. Fava , F. Feldbauer , G. Felici , C. Q. Feng , J. H. Feng , M. Fritsch , C. D. Fu , Y. Gao , Y. Gao , Y. Gao , Y. G. Gao , I. Garzia , P. T. Ge , C. 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[9]	Ming-Yi Dong , Qing-Lei Xiu , Ling-Hui Wu , Zhi Wu , Zhong-Hua Qin , Pin Shen , Fen-Fen An , Xu-Dong Ju , Yi Liu , Kai Zhu , Qun Ou-Yang , Yuan-Bo Chen . Aging effect in the BESIII drift chamber. Chinese Physics C, 2016, 40(1): 016001. doi: 10.1088/1674-1137/40/1/016001
[10]	Wen-Long Yuan , Xiao-Cong Ai , Xiao-Bin Ji , Shen-Jian Chen , Yao Zhang , Ling-Hui Wu , Liang-Liang Wang , Ye Yuan . Study of tracking efficiency and its systematic uncertainty from J/ψ→pp π⁺π^- at BESIII. Chinese Physics C, 2016, 40(2): 026201. doi: 10.1088/1674-1137/40/2/026201
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Zhang, J. W. Zhang, J. Y. Zhang, J. Z. Zhang, Jianyu Zhang, Jiawei Zhang, L. Q. Zhang, Lei Zhang, S. Zhang, S. F. Zhang, Shulei Zhang, X. D. Zhang, X. Y. Zhang, Y. Zhang, Y. H. Zhang, Y. T. Zhang, Yan Zhang, Yao Zhang, Yi Zhang, Z. H. Zhang, Z. Y. Zhang, G. Zhao, J. Zhao, J. Y. Zhao, J. Z. Zhao, Lei Zhao, Ling Zhao, M. G. Zhao, Q. Zhao, S. J. Zhao, Y. B. Zhao, Y. X. Zhao, Z. G. Zhao, A. Zhemchugov, B. Zheng, J. P. Zheng, Y. Zheng, Y. H. Zheng, B. Zhong, C. Zhong, L. P. Zhou, Q. Zhou, X. Zhou, X. K. Zhou, X. R. Zhou, A. N. Zhu, J. Zhu, K. Zhu, K. J. Zhu, S. H. Zhu, T. J. Zhu, W. J. Zhu, W. J. Zhu, Y. C. Zhu, Z. A. Zhu, B. S. Zou and J. H. Zou. Study of BESIII Trigger Efficiencies with the 2018 J/ψ Data[J]. Chinese Physics C. doi: 10.1088/1674-1137/abcfab

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通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

Study of BESIII trigger efficiencies with the 2018 J/ψ data

1. Institute of High Energy Physics, Beijing 100049, China
2. Beihang University, Beijing 100191, China
3. Beijing Institute of Petrochemical Technology, Beijing 102617, China
4. Bochum Ruhr-University, D-44780 Bochum, Germany
5. Carnegie Mellon University, Pittsburgh, Pennsylvania 15213, USA
6. Central China Normal University, Wuhan 430079, China
7. China Center of Advanced Science and Technology, Beijing 100190, China
8. COMSATS University Islamabad, Lahore Campus, Defence Road, Off Raiwind Road, 54000 Lahore, Pakistan
9. Fudan University, Shanghai 200443, China
10. G.I. Budker Institute of Nuclear Physics SB RAS (BINP), Novosibirsk 630090, Russia
11. GSI Helmholtzcentre for Heavy Ion Research GmbH, D-64291 Darmstadt, Germany
12. Guangxi Normal University, Guilin 541004, China
13. Guangxi University, Nanning 530004, China
14. Hangzhou Normal University, Hangzhou 310036, China
15. Helmholtz Institute Mainz, Johann-Joachim-Becher-Weg 45, D-55099 Mainz, Germany
16. Henan Normal University, Xinxiang 453007, China
17. Henan University of Science and Technology, Luoyang 471003, China
18. Huangshan College, Huangshan 245000, China
19. Hunan Normal University, Changsha 410081, China
20. Hunan University, Changsha 410082, China
21. Indian Institute of Technology Madras, Chennai 600036, India
22. Indiana University, Bloomington, Indiana 47405, USA
23. (A)INFN Laboratori Nazionali di Frascati, I-00044, Frascati, Italy; (B)INFN Sezione di Perugia, I-06100, Perugia, Italy; (C)University of Perugia, I-06100, Perugia, Italy
24. (A)INFN Sezione di Ferrara, I-44122, Ferrara, Italy; (B)University of Ferrara, I-44122, Ferrara, Italy
25. Institute of Modern Physics, Lanzhou 730000, China
26. Institute of Physics and Technology, Peace Ave. 54B, Ulaanbaatar 13330, Mongolia
27. Jilin University, Changchun 130012, China
28. Johannes Gutenberg University of Mainz, Johann-Joachim-Becher-Weg 45, D-55099 Mainz, Germany
29. Joint Institute for Nuclear Research, 141980 Dubna, Moscow region, Russia
30. Justus-Liebig-Universitaet Giessen, II. Physikalisches Institut, Heinrich-Buff-Ring 16, D-35392 Giessen, Germany
31. KVI-CART, University of Groningen, NL-9747 AA Groningen, The Netherlands
32. Lanzhou University, Lanzhou 730000, China
33. Liaoning Normal University, Dalian 116029, China
34. Liaoning University, Shenyang 110036, China
35. Nanjing Normal University, Nanjing 210023, China
36. Nanjing University, Nanjing 210093, China
37. Nankai University, Tianjin 300071, China
38. Peking University, Beijing 100871, China
39. Qufu Normal University, Qufu 273165, China
40. Shandong Normal University, Jinan 250014, China
41. Shandong University, Jinan 250100, China
42. Shanghai Jiao Tong University, Shanghai 200240, China
43. Shanxi Normal University, Linfen 041004, China
44. Shanxi University, Taiyuan 030006, China
45. Sichuan University, Chengdu 610064, China
46. Soochow University, Suzhou 215006, China
47. Southeast University, Nanjing 211100, China
48. State Key Laboratory of Particle Detection and Electronics, Beijing 100049, Hefei 230026, China
49. Sun Yat-Sen University, Guangzhou 510275, China
50. Tsinghua University, Beijing 100084, China
51. (A)Ankara University, 06100 Tandogan, Ankara, Turkey; (B)Istanbul Bilgi University, 34060 Eyup, Istanbul, Turkey; (C)Uludag University, 16059 Bursa, Turkey; (D)Near East University, Nicosia, North Cyprus, Mersin 10, Turkey
52. University of Chinese Academy of Sciences, Beijing 100049, China
53. University of Hawaii, Honolulu, Hawaii 96822, USA
54. University of Jinan, Jinan 250022, China
55. University of Manchester, Oxford Road, Manchester, M13 9PL, United Kingdom
56. University of Minnesota, Minneapolis, Minnesota 55455, USA
57. University of Muenster, Wilhelm-Klemm-Str. 9, 48149 Muenster, Germany
58. University of Oxford, Keble Rd, Oxford, UK OX13RH
59. University of Science and Technology Liaoning, Anshan 114051, China
60. University of Science and Technology of China, Hefei 230026, China
61. University of South China, Hengyang 421001, China
62. University of the Punjab, Lahore-54590, Pakistan
63. (A) University of Turin, I-10125, Turin, Italy; (B) University of Eastern Piedmont, I-15121, Alessandria, Italy; (C) INFN, I-10125, Turin, Italy
64. Uppsala University, Box 516, SE-75120 Uppsala, Sweden
65. Wuhan University, Wuhan 430072, China
66. Xinyang Normal University, Xinyang 464000, China
67. Zhejiang University, Hangzhou 310027, China
68. Zhengzhou University, Zhengzhou 450001, China
a. Also at Bogazici University, 34342 Istanbul, Turkey
b. Also at the Moscow Institute of Physics and Technology, Moscow 141700, Russia
c. Also at the Novosibirsk State University, Novosibirsk, 630090, Russia
d. Also at the NRC "Kurchatov Institute", PNPI, 188300, Gatchina, Russia
e. Also at Istanbul Arel University, 34295 Istanbul, Turkey
f. Also at Goethe University Frankfurt, 60323 Frankfurt am Main, Germany
g. Also at Key Laboratory for Particle Physics, Astrophysics and Cosmology, Ministry of Education; Shanghai Key Laboratory for Particle Physics and Cosmology; Institute of Nuclear and Particle Physics, Shanghai 200240, China
h. Also at Key Laboratory of Nuclear Physics and Ion-beam Application (MOE) and Institute of Modern Physics, Fudan University, Shanghai 200443, China
i. Also at Harvard University, Department of Physics, Cambridge, MA, 02138, USA
j. Currently at: Institute of Physics and Technology, Peace Ave.54B, Ulaanbaatar 13330, Mongolia
k. Also at State Key Laboratory of Nuclear Physics and Technology, Peking University, Beijing 100871, China
l. School of Physics and Electronics, Hunan University, Changsha 410082, China

Received Date: 2020-09-29
Available Online: 2021-02-15

Abstract: Using a dedicated data sample taken in 2018 on the J/ψ peak, we perform a detailed study of the trigger efficiencies of the BESIII detector. The efficiencies are determined from three representative physics processes, namely Bhabha scattering, dimuon production and generic hadronic events with charged particles. The combined efficiency of all active triggers approaches 100% in most cases, with uncertainties small enough not to affect most physics analyses.

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II. DATA SET

A. Trigger menu for the 2018 data taking

Table 3 shows the trigger menu used for the 2018 $ J/\psi $ data taking campaign, which has not changed since 2012, with the exception of CH03 mentioned above. The enabled channels are categorized into three almost independent groups, namely endcap charged, barrel charged and neutral.

Channel	Conditions	Group
CH01	NEClus.GE.1&& NETOF.GE.1&& STrk_BB	Endcap Charged
CH02	NBClus.GE.1&& NBTOF.GE.2&& NLtrk.GE.2
CH04	BTOF_BB&& LTrk_BB	Barrel Charged
CH05	Etot_L&& NBTOF.GE.1&& NLtrk.GE.1
CH06	NBClus.GE.1&& NBTOF.GE.1&& NLtrk.GE.2
CH09	NClus.GE.1&& BEtot_H	Neutral
CH12	NClus.GE.2&& Etot_M

Table 3. Trigger menu for 2018 $J/\psi$ data taking.

B. Data sample for trigger study

To study the trigger efficiency, we took two dedicated runs (run 56199 and run 56200) where a single trigger was enabled in order to determine the efficiencies of all trigger conditions using a set of independent conditions. The corresponding trigger menus are shown in Table 4.

Channel Run number

CH03 56199

CH12 56200

Table 4. Trigger menu for the 2018 $J/\psi$ test runs.

V. SUMMARY

The BESIII trigger system is a fundamental tool for the successful collection of data for physics analyses. With a dedicated data sample collected at the $ J/\psi $ peak, the trigger efficiencies for various physics channels were determined, and found to be close to 100% for most physics cases with small uncertainties. This conclusion is similar to that found by the trigger study for the 2009 run [4], showing that there has been no significant degradation in almost a decade of running. As the trigger menu studied here has been used for all data taking since 2012, the results of this study apply to all respective data samples. For most physics channels, the efficiency of the full trigger menu approaches 100% and can be neglected in physics analyses.

ACKNOWLEDGEMENTS

The BESIII collaboration thanks the staff of BEPCII and the IHEP Computing Center for their strong support.

Reference (13)

No.	Trigger Condition	Comments
Electromagnetic calorimeter (EMC)
0	NClus.GE.1	Number of Clusters $\geqslant$ 1
1	NClus.GE.2	Number of Clusters $\geqslant$ 2
2	BClus_BB	Barrel Cluster Back to Back
3	EClus_BB	Endcap Cluster Back to Back
4	Clus_Z	Cluster Balance in z direction
5	BClus_Phi	Barrel Cluster Balance in $\phi$ direction
6	EClus_Phi	Endcap Cluster Balance in $\phi$ direction
7	BEtot_H	Barrel total Energy, Higher threshold
8	EEtot_H	Endcap total Energy, Higher threshold
9	Etot_L	Total Energy, Lower threshold
10	Etot_M	Total Energy, Middle threshold
11	BL_EnZ	Energy Balance in z direction
12	NBClus.GE.1	Number of Barrel Clusters $\geqslant$ 1
13	NEClus.GE.1	Number of Endcap Clusters $\geqslant$ 1
14	BL_BBLK	Barrel Energy Block Balance
15	BL_EBLK	Endcap Energy Block Balance

Time of flight system (ToF)

16	ETOF_BB	Endcap TOF Back to Back
17	BTOF_BB	Barrel TOF Back to Back
18	NETOF.GE.2	Number of Endcap TOF hits $\geqslant$ 2
19	NETOF.GE.1	Number of Endcap TOF hits $\geqslant$ 1
20	NBTOF.GE.2	Number of Barrel TOF hits $\geqslant$ 2
21	NBTOF.GE.1	Number of Barrel TOF hits $\geqslant$ 1
22	NTOF.GE.1	Number of TOF hits $\geqslant$ 1

Muon counter (MUC)

32	NABMU.GE.1	Barrel Tracks number $\geqslant$ 1 for A
33	NAEMU.GE.1	Endcap Tracks number $\geqslant$ 1 for A
34	NCBMU.GE.1	Barrel Tracks number $\geqslant$ 1 for C
35	NCEMU.GE.1	Endcap Tracks number $\geqslant$ 1 for C
36	CBMU_BB	Barrel Track Back to Back for C
37	CEMU_BB	Endcap Track Back to Back for C

A: 2 of 4 Tracking; C: 3 of 4 Tracking

Main drift chamber (MDC)

38	STrk_BB	Short Tracks Back to Back
39	NSTrk.GE.N	Number of Short Tracks $\geqslant$ N
40	NSTrk.GE.2	Number of Short Tracks $\geqslant$ 2
41	NSTrk.GE.1	Number of Short Tracks $\geqslant$ 1
42	LTrk_BB	Long Tracks Back to Back
43	NLTrk.GE.N	Number of Long Tracks $\geqslant$ N
44	NLTrk.GE.2	Number of Long Tracks $\geqslant$ 2
45	NLTrk.GE.1	Number of Long Tracks $\geqslant$ 1
46	NItrk.GE.2	Number of Inner Tracks $\geqslant$ 2
47	NItrk.GE.1	Number of Inner Tracks $\geqslant$ 1

Channel	Conditions combination	Comments
CH01	NEClus.GE.1&& NETOF.GE.1&& STrk_BB	For Charged
CH02	NBClus.GE.1&& NBTOF.GE.2&& NLtrk.GE.2	For Charged
CH03	NBTOF.GE.2&& NLtrk.GE.2	Not used
CH04	BTOF_BB&& LTrk_BB	For Charged
CH05	Etot_L&& NBTOF.GE.1&& NLtrk.GE.1	For Charged
CH06	NBClus.GE.1&& NBTOF.GE.1&& NLtrk.GE.2	For Charged
CH07	−	Not used
CH08	−	Not used
CH09	NClus.GE.1&& BEtot_H	For Neutral
CH10	−	Random
CH11	NBTOF.GE.2&& LTrk_BB	Not used
CH12	NClus.GE.2&& Etot_M	Delayed Neutral
CH13	Etot_L&& NTOF.GE.1	Not used
CH14	BTOF_BB	Not used
CH15	NClus.GE.1	Not used
CH16	ECLUS_BB	Not used

	GTL	Condition	Bhabha		Dimuon		2-prong	4-prong
	GTL	Condition	Barrel	Endcap	Barrel	Endcap	2-prong	4-prong
EMC	0	NClus.GE.1	100.00	100.00$^{+0.00}_{-0.41}$	99.93$\pm$0.01	94.74$^{+4.35}_{-11.09}$	99.64$\pm$0.01	99.97
	1	NClus.GE.2	98.69$\pm$0.03	98.20$^{+0.62}_{-0.87}$	95.14$\pm$0.08	84.21$^{+8.47}_{-13.01}$	98.01$^{+0.03}_{-0.02}$	99.63$^{+0.01}_{-0.02}$
	7	BEtot_H	100.00	0.17$\pm$0.02	0.68$\pm$0.03	4.81$^{+2.06}_{-3.12}$	89.88$\pm$0.04	93.25 $^{+0.03}_{-0.04}$
	9	Etot_L	100.00	100.00$^{+0.00}_{-0.41}$	99.82$\pm$0.01	100.00$^{+0.00}_{-9.24}$	99.63$\pm$0.01	99.99
	10	Etot_M	100.00	100.00$^{+0.00}_{-0.41}$	10.25$\pm$0.11	0.00$^{+0.09}_{-0.00}$	97.01$\pm$0.03	99.44$\pm$0.02
	12	NBClus.GE.1	100.00	0.99$\pm$0.01	99.93$\pm$0.01	0.00$^{+0.09}_{-0.00}$	99.34$\pm$0.01	99.90$\pm$0.01
	13	NEClus.GE.1	0.94$\pm$0.02	100.00$^{+0.00}_{-0.41}$	1.68$^{+0.04}_{-0.05}$	94.74$^{+4.35}_{-11.09}$	36.93$\pm$0.06	41.85$\pm$0.07

TOF	17	BTOF_BB	98.81$\pm$0.01	0.62$^{+0.02}_{-0.03}$	99.98$\pm$0.01	0.00$^{+0.02}_{-0.00}$	57.21$\pm$0.06	83.21$\pm$0.05
	19	NETOF.GE.1	61.98$\pm$0.09	99.90$^{+0.00}_{-0.01}$	60.08$\pm$0.17	100.00$^{+0.00}_{-2.14}$	74.69$^{+0.05}_{-0.06}$	77.87$\pm$0.06
	20	NBTOF.GE.2	99.69$^{+0.01}_{-0.02}$	3.69$\pm$0.06	99.89$^{+0.04}_{-0.06}$	7.06$^{+2.76}_{-3.99}$	87.81$^{+0.05}_{-0.06}$	99.04$\pm$0.02
	21	NBTOF.GE.1	100.00	41.89$\pm$0.14	100.00	36.47$^{+5.60}_{-5.95}$	99.63$\pm$0.01	99.96

MDC	38	STrk_BB	99.93$^{+0.00}_{-0.01}$	99.95$\pm$0.01	99.95$\pm$0.01	100.00$^{+0.00}_{-1.75}$	46.62$\pm$0.06	83.01$^{+0.05}_{-0.06}$
	42	LTrk_BB	99.91$^{+0.00}_{-0.01}$	6.96$^{+0.07}_{-0.08}$	99.95$^{+0.01}_{-0.02}$	11.54$^{+4.03}_{-3.19}$	37.34$\pm$0.06	76.21$\pm$0.06
	44	NLTrk.GE.2	99.90$^{+0.00}_{-0.01} $	21.74$\pm$0.12	99.87$^{+0.05}_{-0.06}$	18.82$^{+5.22}_{-4.39}$	93.68$\pm$0.05	99.86$\pm$0.02
	45	NLTrk.GE.1	100.00	38.92$^{+0.13}_{-0.14}$	100.00	30.59$^{+5.80}_{-5.30}$	99.67$\pm$0.01	99.98

Channel	Bhabha		Dimuon		2-prong	4-prong
Channel	Barrel	Endcap	Barrel	Endcap	2-prong	4-prong
CH01	0.65$ \pm $0.02	99.10$ ^{+0.43}_{-0.70} $	0.63$ \pm $0.03	99.04$ ^{+0.96}_{-11.09} $	15.88$ \pm $0.04	31.30$ ^{+0.03}_{-0.05} $
CH02	99.60$ \pm $ 0.02	0.03$ \pm $0.01	99.76$ ^{+0.06}_{-0.08} $	1.18$ ^{+0.85}_{-0.78} $	84.88$ \pm $0.06	98.97$ \pm $0.02
CH04	99.73$ \pm $ 0.01	0.06$ \pm $0.01	99.92$ \pm $0.01	0.00$ ^{+0.02}_{-0.00} $	29.15$ \pm $0.05	67.36$ \pm $0.07
CH05	100.00	17.45$ \pm $0.11	99.82$ \pm $0.01	9.41$ ^{+2.32}_{-1.69} $	99.04$ \pm $0.01	99.94
CH06	99.90$ \pm $0.01	0.15$ ^{+0.01}_{-0.02} $	99.87$ ^{+0.04}_{-0.06} $	2.35$ ^{+1.02}_{-0.72} $	93.22$ ^{+0.05}_{-0.06} $	99.78$ \pm $0.01
CH09	100.00	0.17$ \pm $0.01	0.68$ \pm $0.03	5.88$ ^{+2.79}_{-1.52} $	89.85$ \pm $0.04	93.23$ \pm $0.04
CH12	98.69$ \pm $0.03	98.20$ ^{+0.62}_{-0.87} $	9.79$ \pm $0.12	0.00$ ^{+0.09}_{-0.00} $	96.42$ ^{+0.04}_{-0.03} $	99.22$ \pm $0.02

Barrel Charged	100.00$ ^{+0.00}_{-0.02} $	17.45$ ^{+6.61}_{-6.91} $	99.95$ ^{+0.05}_{-0.10} $	9.41$ ^{+8.25}_{-7.06} $	99.04$ \pm $0.19	99.94$ ^{+0.06}_{-0.11} $
Endcap Charged	0.65$ \pm $0.02	99.10$ ^{+0.43}_{-0.70} $	0.63$ \pm $0.03	99.04$ ^{+0.96}_{-11.09} $	15.88$ \pm $0.04	31.30$ ^{+0.03}_{-0.05} $
Neutral	100.00$ ^{+0.00}_{-0.03} $	98.20$ ^{+1.80}_{-5.84} $	9.81$ \pm $0.45	5.88$ ^{+2.79}_{-1.52} $	96.71$ ^{+0.06}_{-0.05} $	99.32$ \pm $0.05

Total	100.00	99.99$ ^{+0.01}_{-0.04} $	99.96$ ^{+0.04}_{-0.09} $	99.33$ ^{+0.67}_{-9.46} $	99.97$ \pm $0.01	100.00$ ^{+0.00}_{-0.01} $

Study of BESIII trigger efficiencies with the 2018 J/ψ data

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通讯作者: 陈斌, bchen63@163.com

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Study of BESIII trigger efficiencies with the 2018 J/ψ data

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A. Trigger menu for the 2018 data taking

B. Data sample for trigger study

A. Bhabha event selection

B. Dimuon event selection

C. Charged hadronic event selection

A. Determination of trigger efficiencies

B. Determination of trigger channel efficiencies

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