Design and construction of the BESIII detector

Ablikim M,An ZH,Bai JZ,Berger N,Bian JM,Cai X,Cao GF,Cao XX,Chang JF,Chen C,Chen G,Chen HC,Chen HX,Chen J,Chen JC,Chen LP,Chen P,Chen XH,Chen YB,Chen ML,Chu YP,Cui XZ,Dai HL,Deng ZY,Dong MY,Du SX,Du ZZ, Fang J,Fu CD,Gao CS,Gong MY,Gong WX,Gu SD,Guan BJ,Guan J,Guo YN,Han JF,He KL,He M, He X,Heng YK,Hou ZL,Hu HM,Hu T,Huang B,Huang J,Huang SK,Huang YP,Ji Q,Ji XB,Ji XL,Jia LK,Jiang LL,Jiang XS,Jin DP,Jin S,Jin Y,Lai YF,Lei GK, Li F,Li G,Li HB,Li HS,Li J,Li JC,Li QJ,Li L,Li RB,Li RY,Li WD,Li WG,Li XN,Li XP,Li XR,Li YR,Li W,Lin DX, Liu BJ,Liu CX,Liu F,Liu GM,Liu H,Liu HM,Liu HW,Liu JB,Liu LF,Liu Q,Liu QG,Liu SD,Liu WJ,Liu X,Liu XZ,Liu Y,Liu YJ,Liu ZA,Liu ZQ,Liu ZX,Lu JG,Lu T,Lu YP,Luo XL,Ma HL,Ma QM,Ma X,Ma XY,Mao ZP,Min J,Mo XH,Nie J,Nie ZD,Ping RG, Qian S,Qiao Q,Qin G,Qin ZH,Qiu JF,Liu RG,Ren ZY,Rong G,Shang L,Shen DL,Shen XY,Sheng HY,Shi YF,Song LW,Song WY,Sun DH,Sun GX,Sun HS,Sun LJ,Sun SS,Sun XD,Sun YZ,Sun ZJ,Tan JP,Tang SQ,Tang X,Tao N,Tian HL,Tian YR, Wan X,Wang DY,Wang JK,Wang JZ,Wang K,Wang KX,Wang L,Wang LJ,Wang LS,Wang M,Wang N,Wang P,Wang PL,Wang Q,Wang YF,Wang Z, Wang ZG,Wang ZY,Wei CL,Wei SJ,Wen SP, Wu JJ,Wu LH,Wu N,Wu YH,Wu YM,Wu Z,Xu MH,Xia XM,Xiang HS,Xie G,Xie XX,Xie YG,Xu GF,Xu H,Xu QJ,Xue JD,Xue L,Yan L,Yang GA,Yang H,Yang HX,Yang SM,Ye M,Yu BX,Yuan C,Yuan CZ,Yuan Y,Zang SL,Zhang BX,Zhang BY,Zhang CC,Zhang DH,Zhang HY,Zhang J,Zhang JW,Zhang JY,Zhang LS,Zhang M,Zhang QX,Zhang W,Zhang XM,Zhang Y,Zhang YH,Zhang YY,Zhang ZX,Zhang SH,Zhao DX,Zhao HS,Zhao JB,Zhao JW,Zhao JZ,Zhao L,Zhao PP,Zhao YB,Zhao YD,Zheng B,Zheng JP,Zheng LS,Zheng ZP,Zhou BQ,Zhou GM, Zhou J, Zhou L,Zhou ZL,Zhu HT,Zhu K,Zhu KJ,Zhu QM,Zhu XW,Zhu YS,Zhu ZA,Zhuang BA,Zou JH,Zou X,Zuo JX,Wang LL,Ye MH,Zheng YH,Qiao CF,Lu XR,Liu HB,Hu JF,Gu YT,Ruan XD,Huang GM, Zeng Y,Yan YH,Chelkov G, Boyko I,Dedovich D,Denysenko I,Grishin S,Zhemchugov A,Xiao ZJ,Ping JL,Luo LBGCL,Chen SJ,Qi M,Hu XW,Zhang L,Li XQ,Yu CX,Liu YB,Xu Y,Zhao MG,Guo AQ,Guo YP,He ZY,Mao YJ,You ZY,Liang YT,Zhang XY,Huang XT,Jiao JB,Li XL,Duan MY,Liu FH,Lu QW,Ning FP,Wang XD,Liang YF,Tang CJ,Zhang YY,Gao YN,Gong H,Shao BB,Tian YR,Yang SM,Harris FA,Kennedy JW,Liu Q,Nguyen X,Olsen SL,Rosen M,Shen CP,Varner GS, Yu X,Zhou Y,Liang H,Chen Y,Xue J,Liu Q,Liu B, Cheng Z, Zhou L,Yang H,Chen HF, Li C,Shao M,Sun YJ,Yan J,Tang ZB,Li X,Zhao L,Jiang L,Zhang ZP,Wu J,Xu ZZ,Shan Q,Xue Z,Wang XL,An Q,Liu SB,Guo JH,Zhao L,Feng CQ,Liu XZ,Li H,Zheng W,Yan H,Cao Z,Liu XH,Komamiya S,Sanuki T,Yamamura T,Zhao TC,Luo MX

Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment（2010）

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摘要

This paper will discuss the design and construction of BESIII, which is designed to study physics in the τ-charm energy region utilizing the new high luminosity BEPCII double ring e+e− collider. The expected performance will be given based on Monte Carlo simulations and results of cosmic ray and beam tests. In BESIII, tracking and momentum measurements for charged particles are made by a cylindrical multilayer drift chamber in a 1T superconducting solenoid. Charged particles are identified with a time-of-flight system based on plastic scintillators in conjunction with dE/dx (energy loss per unit pathlength) measurements in the drift chamber. Energies of electromagnetic showers are measured by a CsI(Tl) crystal calorimeter located inside the solenoid magnet. Muons are identified by arrays of resistive plate chambers in a steel magnetic yoke for the flux return. The level 1 trigger system, data acquisition system and the detector control system based on networked computers will also be described.

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BESIII detector,Tau-charm experiment,BEPCII collider

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