Flavor physics at the CEPC: a general perspective

Xiaocong Ai; Wolfgang Altmannshofer; Peter Athron; Xiaozhi Bai; Lorenzo Calibbi; Lu Cao; Yuzhi Che; Chunhui Chen; Ji Yuan Chen; Long Chen; Mingshui Chen; Shanzhen Chen; Xuan Chen; Shan Cheng; Cheng Wei Chiang; Andreas Crivellin; Hanhua Cui; Olivier Deschamps; Sébastien Descotes-Genon; Xiaokang Du; Shuangshi Fang; Yu Gao; Yuanning Gao; Li Sheng Geng; Pablo Goldenzweig; Jiayin Gu; Feng Kun Guo; Yuchen Guo; Zhi Hui Guo; Tao Han; Hong Jian He; Jibo He; Miao He; Xiaogang He; Yanping Huang; Gino Isidori; Quan Ji; Jianfeng Jiang; Xu Hui Jiang; Jernej F. Kamenik; Tsz Hong Kwok; Gang Li; Geng Li; Haibo Li; Haitao Li; Hengne Li; Honglei Li; Liang Li; Lingfeng Li; Qiang Li; Qiang Li; Shu Li; Xiaomei Li; Xin Qiang Li; Yiming Li; Yubo Li; Yuji Li; Zhao Li; Hao Liang; Zhijun Liang; Libo Liao; Zoltan Ligeti; Jia Liu; Jianbei Liu; Tao Liu; Yi Liu; Yong Liu; Zhen Liu; Xinchou Lou; Peng Cheng Lu; Alberto Lusiani; Hong Hao Ma; Kai Ma; Farvah Mahmoudi; Yajun Mao; Yaxian Mao; David Marzocca; Juan Juan Niu; Soeren Prell; Huirong Qi; Sen Qian; Zhuoni Qian; Qin Qin; Ariel Rock; Jonathan L. Rosner; Manqi Ruan; Dingyu Shao; Chengping Shen; Xiaoyan Shen; Haoyu Shi; Liaoshan Shi; Zong Guo Si; Cristian Sierra; Huayang Song; Shufang Su; Wei Su; Zhijia Sun; Michele Tammaro; Dayong Wang; En Wang; Fei Wang; Hengyu Wang; Jian Wang; Jianchun Wang; Kun Wang; Lian Tao Wang; Wei Wang; Xiaolong Wang; Xiaoping Wang; Yadi Wang; Yifang Wang; Yuexin Wang; Xing Gang Wu; Yongcheng Wu; Rui Qing Xiao; Ke Pan Xie; Yuehong Xie; Zijun Xu; Haijun Yang; Hongtao Yang; Lin Yang; Shuo Yang; Zhongbao Yin; Fusheng Yu; Changzheng Yuan; Xing Bo Yuan; Xuhao Yuan; Chongxing Yue; Xi Jie Zhan; Hong Hao Zhang; Kaili Zhang; Liming Zhang; Xiaoming Zhang; Yang Zhang; Yanxi Zhang; Ying Zhang; Yongchao Zhang; Yu Zhang; Zhen Hua Zhang; Zhong Zhang; Mingrui Zhao; Qiang Zhao; Xu Chang Zheng; Yangheng Zheng; Chen Zhou; Daicui Zhou; Pengxuan Zhu; Yongfeng Zhu; Xuai Zhuang; Xunwu Zuo; Jure Zupan

doi:10.1088/1674-1137/adf1f0

Flavor physics at the CEPC: a general perspective

Xiaocong Ai
, Wolfgang Altmannshofer
, Peter Athron
, Xiaozhi Bai
, Lorenzo Calibbi
, Lu Cao
, Yuzhi Che
, Chunhui Chen
, Ji Yuan Chen
, Long Chen
, Mingshui Chen
, Shanzhen Chen
, Xuan Chen
, Shan Cheng
, Cheng Wei Chiang
, Andreas Crivellin
, Hanhua Cui
, Olivier Deschamps
, Sébastien Descotes-Genon
, Xiaokang Du

Shuangshi Fang, Yu Gao, Yuanning Gao, Li Sheng Geng, Pablo Goldenzweig, Jiayin Gu, Feng Kun Guo, Yuchen Guo, Zhi Hui Guo, Tao Han, Hong Jian He, Jibo He, Miao He, Xiaogang He, Yanping Huang, Gino Isidori, Quan Ji, Jianfeng Jiang, Xu Hui Jiang, Jernej F. Kamenik, Tsz Hong Kwok, Gang Li, Geng Li, Haibo Li, Haitao Li, Hengne Li, Honglei Li, Liang Li, Lingfeng Li, Qiang Li, Qiang Li, Shu Li, Xiaomei Li, Xin Qiang Li, Yiming Li, Yubo Li, Yuji Li, Zhao Li, Hao Liang, Zhijun Liang, Libo Liao, Zoltan Ligeti, Jia Liu, Jianbei Liu, Tao Liu, Yi Liu, Yong Liu, Zhen Liu, Xinchou Lou, Peng Cheng Lu, Alberto Lusiani, Hong Hao Ma, Kai Ma, Farvah Mahmoudi, Yajun Mao, Yaxian Mao, David Marzocca, Juan Juan Niu, Soeren Prell, Huirong Qi, Sen Qian, Zhuoni Qian, Qin Qin, Ariel Rock, Jonathan L. Rosner, Manqi Ruan, Dingyu Shao, Chengping Shen, Xiaoyan Shen, Haoyu Shi, Liaoshan Shi, Zong Guo Si, Cristian Sierra, Huayang Song, Shufang Su, Wei Su, Zhijia Sun, Michele Tammaro, Dayong Wang, En Wang, Fei Wang, Hengyu Wang, Jian Wang, Jianchun Wang, Kun Wang, Lian Tao Wang, Wei Wang, Xiaolong Wang, Xiaoping Wang, Yadi Wang, Yifang Wang, Yuexin Wang, Xing Gang Wu, Yongcheng Wu, Rui Qing Xiao, Ke Pan Xie, Yuehong Xie, Zijun Xu, Haijun Yang, Hongtao Yang, Lin Yang, Shuo Yang, Zhongbao Yin, Fusheng Yu, Changzheng Yuan, Xing Bo Yuan, Xuhao Yuan, Chongxing Yue, Xi Jie Zhan, Hong Hao Zhang, Kaili Zhang, Liming Zhang, Xiaoming Zhang, Yang Zhang, Yanxi Zhang, Ying Zhang, Yongchao Zhang, Yu Zhang, Zhen Hua Zhang, Zhong Zhang, Mingrui Zhao, Qiang Zhao, Xu Chang Zheng, Yangheng Zheng, Chen Zhou, Daicui Zhou, Pengxuan Zhu, Yongfeng Zhu, Xuai Zhuang, Xunwu Zuo, Jure Zupan

Physics

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

We discuss the landscape of flavor physics at the Circular Electron-Positron Collider (CEPC), based on the nominal luminosity outlined in its Technical Design Report. The CEPC is designed to operate in multiple modes to address a variety of tasks. At the Z pole, the expected production of 4 Tera Z bosons will provide unique and highly precise measurements of Z boson couplings, while the substantial number of boosted heavy-flavored quarks and leptons produced in clean Z decays will facilitate investigations into their flavor physics with unprecedented precision. We investigate the prospects of measuring various physics benchmarks and discuss their implications for particle theories and phenomenological models. Our studies indicate that, with its highlighted advantages and anticipated excellent detector performance, the CEPC can explore beauty and τ physics in ways that are superior to or complementary with the Belle II and Large-Hadron-Collider-beauty experiments, potentially enabling the detection of new physics at energy scales of 10 TeV and above. This potential also extends to the observation of yet-to-be-discovered rare and exotic processes, as well as testing fundamental principles such as lepton flavor universality, lepton and baryon number conservation, etc., making the CEPC a vibrant platform for flavor physics research. The WW threshold scan, Higgs-factory operation and top-pair productions of the CEPC further enhance its merits in this regard, especially for measuring the Cabibbo-Kobayashi-Maskawa matrix elements, and Flavor-Changing-Neutral-Current physics of Higgs boson and top quarks. We outline the requirements for detector performance and considerations for future development to achieve the anticipated scientific goals. The role of machine learning for innovative detector design and advanced reconstruction algorithms is also stressed. The CEPC flavor physics program not only develops new capabilities for exploring flavor physics beyond existing projects but also enriches the physics opportunities of this machine. It should be remarked that, given the richness of the CEPC flavor physics, this manuscript is not meant to be a comprehensive survey, but rather an investigation of representative cases. Uncovering the full potential of flavor physics at the CEPC will require further dedicated explorations in the future.

Original language	English (US)
Article number	103003
Journal	Chinese Physics C
Volume	49
Issue number	10
DOIs	https://doi.org/10.1088/1674-1137/adf1f0
State	Published - Oct 1 2025

Keywords

CEPC
flavor physics
future collider

ASJC Scopus subject areas

Nuclear and High Energy Physics
Instrumentation
Astronomy and Astrophysics

Access to Document

10.1088/1674-1137/adf1f0

Cite this

Ai, X., Altmannshofer, W., Athron, P., Bai, X., Calibbi, L., Cao, L., Che, Y., Chen, C., Chen, J. Y., Chen, L., Chen, M., Chen, S., Chen, X., Cheng, S., Chiang, C. W., Crivellin, A., Cui, H., Deschamps, O., Descotes-Genon, S., ... Zupan, J. (2025). Flavor physics at the CEPC: a general perspective. Chinese Physics C, 49(10), Article 103003. https://doi.org/10.1088/1674-1137/adf1f0

Ai, X, Altmannshofer, W, Athron, P, Bai, X, Calibbi, L, Cao, L, Che, Y, Chen, C, Chen, JY, Chen, L, Chen, M, Chen, S, Chen, X, Cheng, S, Chiang, CW, Crivellin, A, Cui, H, Deschamps, O, Descotes-Genon, S, Du, X, Fang, S, Gao, Y, Gao, Y, Geng, LS, Goldenzweig, P, Gu, J, Guo, FK, Guo, Y, Guo, ZH, Han, T, He, HJ, He, J, He, M, He, X, Huang, Y, Isidori, G, Ji, Q, Jiang, J, Jiang, XH, Kamenik, JF, Kwok, TH, Li, G, Li, G, Li, H, Li, H, Li, H, Li, H, Li, L, Li, L, Li, Q, Li, Q, Li, S, Li, X, Li, XQ, Li, Y, Li, Y, Li, Y, Li, Z, Liang, H, Liang, Z, Liao, L, Ligeti, Z, Liu, J, Liu, J, Liu, T, Liu, Y, Liu, Y, Liu, Z, Lou, X, Lu, PC, Lusiani, A, Ma, HH, Ma, K, Mahmoudi, F, Mao, Y, Mao, Y, Marzocca, D, Niu, JJ, Prell, S, Qi, H, Qian, S, Qian, Z, Qin, Q, Rock, A, Rosner, JL, Ruan, M, Shao, D, Shen, C, Shen, X, Shi, H, Shi, L, Si, ZG, Sierra, C, Song, H, Su, S, Su, W, Sun, Z, Tammaro, M, Wang, D, Wang, E, Wang, F, Wang, H, Wang, J, Wang, J, Wang, K, Wang, LT, Wang, W, Wang, X, Wang, X, Wang, Y, Wang, Y, Wang, Y, Wu, XG, Wu, Y, Xiao, RQ, Xie, KP, Xie, Y, Xu, Z, Yang, H, Yang, H, Yang, L, Yang, S, Yin, Z, Yu, F, Yuan, C, Yuan, XB, Yuan, X, Yue, C, Zhan, XJ, Zhang, HH, Zhang, K, Zhang, L, Zhang, X, Zhang, Y, Zhang, Y, Zhang, Y, Zhang, Y, Zhang, Y, Zhang, ZH, Zhang, Z, Zhao, M, Zhao, Q, Zheng, XC, Zheng, Y, Zhou, C, Zhou, D, Zhu, P, Zhu, Y, Zhuang, X, Zuo, X & Zupan, J 2025, 'Flavor physics at the CEPC: a general perspective', Chinese Physics C, vol. 49, no. 10, 103003. https://doi.org/10.1088/1674-1137/adf1f0

@article{2f2afdb81ef948b4b9f8dca6d7bae379,

title = "Flavor physics at the CEPC: a general perspective",

abstract = "We discuss the landscape of flavor physics at the Circular Electron-Positron Collider (CEPC), based on the nominal luminosity outlined in its Technical Design Report. The CEPC is designed to operate in multiple modes to address a variety of tasks. At the Z pole, the expected production of 4 Tera Z bosons will provide unique and highly precise measurements of Z boson couplings, while the substantial number of boosted heavy-flavored quarks and leptons produced in clean Z decays will facilitate investigations into their flavor physics with unprecedented precision. We investigate the prospects of measuring various physics benchmarks and discuss their implications for particle theories and phenomenological models. Our studies indicate that, with its highlighted advantages and anticipated excellent detector performance, the CEPC can explore beauty and τ physics in ways that are superior to or complementary with the Belle II and Large-Hadron-Collider-beauty experiments, potentially enabling the detection of new physics at energy scales of 10 TeV and above. This potential also extends to the observation of yet-to-be-discovered rare and exotic processes, as well as testing fundamental principles such as lepton flavor universality, lepton and baryon number conservation, etc., making the CEPC a vibrant platform for flavor physics research. The WW threshold scan, Higgs-factory operation and top-pair productions of the CEPC further enhance its merits in this regard, especially for measuring the Cabibbo-Kobayashi-Maskawa matrix elements, and Flavor-Changing-Neutral-Current physics of Higgs boson and top quarks. We outline the requirements for detector performance and considerations for future development to achieve the anticipated scientific goals. The role of machine learning for innovative detector design and advanced reconstruction algorithms is also stressed. The CEPC flavor physics program not only develops new capabilities for exploring flavor physics beyond existing projects but also enriches the physics opportunities of this machine. It should be remarked that, given the richness of the CEPC flavor physics, this manuscript is not meant to be a comprehensive survey, but rather an investigation of representative cases. Uncovering the full potential of flavor physics at the CEPC will require further dedicated explorations in the future.",

keywords = "CEPC, flavor physics, future collider",

author = "Xiaocong Ai and Wolfgang Altmannshofer and Peter Athron and Xiaozhi Bai and Lorenzo Calibbi and Lu Cao and Yuzhi Che and Chunhui Chen and Chen, \{Ji Yuan\} and Long Chen and Mingshui Chen and Shanzhen Chen and Xuan Chen and Shan Cheng and Chiang, \{Cheng Wei\} and Andreas Crivellin and Hanhua Cui and Olivier Deschamps and S{\'e}bastien Descotes-Genon and Xiaokang Du and Shuangshi Fang and Yu Gao and Yuanning Gao and Geng, \{Li Sheng\} and Pablo Goldenzweig and Jiayin Gu and Guo, \{Feng Kun\} and Yuchen Guo and Guo, \{Zhi Hui\} and Tao Han and He, \{Hong Jian\} and Jibo He and Miao He and Xiaogang He and Yanping Huang and Gino Isidori and Quan Ji and Jianfeng Jiang and Jiang, \{Xu Hui\} and Kamenik, \{Jernej F.\} and Kwok, \{Tsz Hong\} and Gang Li and Geng Li and Haibo Li and Haitao Li and Hengne Li and Honglei Li and Liang Li and Lingfeng Li and Qiang Li and Qiang Li and Shu Li and Xiaomei Li and Li, \{Xin Qiang\} and Yiming Li and Yubo Li and Yuji Li and Zhao Li and Hao Liang and Zhijun Liang and Libo Liao and Zoltan Ligeti and Jia Liu and Jianbei Liu and Tao Liu and Yi Liu and Yong Liu and Zhen Liu and Xinchou Lou and Lu, \{Peng Cheng\} and Alberto Lusiani and Ma, \{Hong Hao\} and Kai Ma and Farvah Mahmoudi and Yajun Mao and Yaxian Mao and David Marzocca and Niu, \{Juan Juan\} and Soeren Prell and Huirong Qi and Sen Qian and Zhuoni Qian and Qin Qin and Ariel Rock and Rosner, \{Jonathan L.\} and Manqi Ruan and Dingyu Shao and Chengping Shen and Xiaoyan Shen and Haoyu Shi and Liaoshan Shi and Si, \{Zong Guo\} and Cristian Sierra and Huayang Song and Shufang Su and Wei Su and Zhijia Sun and Michele Tammaro and Dayong Wang and En Wang and Fei Wang and Hengyu Wang and Jian Wang and Jianchun Wang and Kun Wang and Wang, \{Lian Tao\} and Wei Wang and Xiaolong Wang and Xiaoping Wang and Yadi Wang and Yifang Wang and Yuexin Wang and Wu, \{Xing Gang\} and Yongcheng Wu and Xiao, \{Rui Qing\} and Xie, \{Ke Pan\} and Yuehong Xie and Zijun Xu and Haijun Yang and Hongtao Yang and Lin Yang and Shuo Yang and Zhongbao Yin and Fusheng Yu and Changzheng Yuan and Yuan, \{Xing Bo\} and Xuhao Yuan and Chongxing Yue and Zhan, \{Xi Jie\} and Zhang, \{Hong Hao\} and Kaili Zhang and Liming Zhang and Xiaoming Zhang and Yang Zhang and Yanxi Zhang and Ying Zhang and Yongchao Zhang and Yu Zhang and Zhang, \{Zhen Hua\} and Zhong Zhang and Mingrui Zhao and Qiang Zhao and Zheng, \{Xu Chang\} and Yangheng Zheng and Chen Zhou and Daicui Zhou and Pengxuan Zhu and Yongfeng Zhu and Xuai Zhuang and Xunwu Zuo and Jure Zupan",

note = "Publisher Copyright: {\textcopyright} 2025 Chinese Physical Society and the Institute of High Energy Physics of the Chinese Academy of Sciences and the Institute of Modern Physics of the Chinese Academy of Sciences and IOP Publishing Ltd.",

year = "2025",

month = oct,

day = "1",

doi = "10.1088/1674-1137/adf1f0",

language = "English (US)",

volume = "49",

journal = "Chinese Physics C",

issn = "1674-1137",

publisher = "IOP Publishing Ltd.",

number = "10",

}

TY - JOUR

T1 - Flavor physics at the CEPC

T2 - a general perspective

AU - Ai, Xiaocong

AU - Altmannshofer, Wolfgang

AU - Athron, Peter

AU - Bai, Xiaozhi

AU - Calibbi, Lorenzo

AU - Cao, Lu

AU - Che, Yuzhi

AU - Chen, Chunhui

AU - Chen, Ji Yuan

AU - Chen, Long

AU - Chen, Mingshui

AU - Chen, Shanzhen

AU - Chen, Xuan

AU - Cheng, Shan

AU - Chiang, Cheng Wei

AU - Crivellin, Andreas

AU - Cui, Hanhua

AU - Deschamps, Olivier

AU - Descotes-Genon, Sébastien

AU - Du, Xiaokang

AU - Fang, Shuangshi

AU - Gao, Yu

AU - Gao, Yuanning

AU - Geng, Li Sheng

AU - Goldenzweig, Pablo

AU - Gu, Jiayin

AU - Guo, Feng Kun

AU - Guo, Yuchen

AU - Guo, Zhi Hui

AU - Han, Tao

AU - He, Hong Jian

AU - He, Jibo

AU - He, Miao

AU - He, Xiaogang

AU - Huang, Yanping

AU - Isidori, Gino

AU - Ji, Quan

AU - Jiang, Jianfeng

AU - Jiang, Xu Hui

AU - Kamenik, Jernej F.

AU - Kwok, Tsz Hong

AU - Li, Gang

AU - Li, Geng

AU - Li, Haibo

AU - Li, Haitao

AU - Li, Hengne

AU - Li, Honglei

AU - Li, Liang

AU - Li, Lingfeng

AU - Li, Qiang

AU - Li, Shu

AU - Li, Xiaomei

AU - Li, Xin Qiang

AU - Li, Yiming

AU - Li, Yubo

AU - Li, Yuji

AU - Li, Zhao

AU - Liang, Hao

AU - Liang, Zhijun

AU - Liao, Libo

AU - Ligeti, Zoltan

AU - Liu, Jia

AU - Liu, Jianbei

AU - Liu, Tao

AU - Liu, Yi

AU - Liu, Yong

AU - Liu, Zhen

AU - Lou, Xinchou

AU - Lu, Peng Cheng

AU - Lusiani, Alberto

AU - Ma, Hong Hao

AU - Ma, Kai

AU - Mahmoudi, Farvah

AU - Mao, Yajun

AU - Mao, Yaxian

AU - Marzocca, David

AU - Niu, Juan Juan

AU - Prell, Soeren

AU - Qi, Huirong

AU - Qian, Sen

AU - Qian, Zhuoni

AU - Qin, Qin

AU - Rock, Ariel

AU - Rosner, Jonathan L.

AU - Ruan, Manqi

AU - Shao, Dingyu

AU - Shen, Chengping

AU - Shen, Xiaoyan

AU - Shi, Haoyu

AU - Shi, Liaoshan

AU - Si, Zong Guo

AU - Sierra, Cristian

AU - Song, Huayang

AU - Su, Shufang

AU - Su, Wei

AU - Sun, Zhijia

AU - Tammaro, Michele

AU - Wang, Dayong

AU - Wang, En

AU - Wang, Fei

AU - Wang, Hengyu

AU - Wang, Jian

AU - Wang, Jianchun

AU - Wang, Kun

AU - Wang, Lian Tao

AU - Wang, Wei

AU - Wang, Xiaolong

AU - Wang, Xiaoping

AU - Wang, Yadi

AU - Wang, Yifang

AU - Wang, Yuexin

AU - Wu, Xing Gang

AU - Wu, Yongcheng

AU - Xiao, Rui Qing

AU - Xie, Ke Pan

AU - Xie, Yuehong

AU - Xu, Zijun

AU - Yang, Haijun

AU - Yang, Hongtao

AU - Yang, Lin

AU - Yang, Shuo

AU - Yin, Zhongbao

AU - Yu, Fusheng

AU - Yuan, Changzheng

AU - Yuan, Xing Bo

AU - Yuan, Xuhao

AU - Yue, Chongxing

AU - Zhan, Xi Jie

AU - Zhang, Hong Hao

AU - Zhang, Kaili

AU - Zhang, Liming

AU - Zhang, Xiaoming

AU - Zhang, Yang

AU - Zhang, Yanxi

AU - Zhang, Ying

AU - Zhang, Yongchao

AU - Zhang, Yu

AU - Zhang, Zhen Hua

AU - Zhang, Zhong

AU - Zhao, Mingrui

AU - Zhao, Qiang

AU - Zheng, Xu Chang

AU - Zheng, Yangheng

AU - Zhou, Chen

AU - Zhou, Daicui

AU - Zhu, Pengxuan

AU - Zhu, Yongfeng

AU - Zhuang, Xuai

AU - Zuo, Xunwu

AU - Zupan, Jure

N1 - Publisher Copyright: © 2025 Chinese Physical Society and the Institute of High Energy Physics of the Chinese Academy of Sciences and the Institute of Modern Physics of the Chinese Academy of Sciences and IOP Publishing Ltd.

PY - 2025/10/1

Y1 - 2025/10/1

N2 - We discuss the landscape of flavor physics at the Circular Electron-Positron Collider (CEPC), based on the nominal luminosity outlined in its Technical Design Report. The CEPC is designed to operate in multiple modes to address a variety of tasks. At the Z pole, the expected production of 4 Tera Z bosons will provide unique and highly precise measurements of Z boson couplings, while the substantial number of boosted heavy-flavored quarks and leptons produced in clean Z decays will facilitate investigations into their flavor physics with unprecedented precision. We investigate the prospects of measuring various physics benchmarks and discuss their implications for particle theories and phenomenological models. Our studies indicate that, with its highlighted advantages and anticipated excellent detector performance, the CEPC can explore beauty and τ physics in ways that are superior to or complementary with the Belle II and Large-Hadron-Collider-beauty experiments, potentially enabling the detection of new physics at energy scales of 10 TeV and above. This potential also extends to the observation of yet-to-be-discovered rare and exotic processes, as well as testing fundamental principles such as lepton flavor universality, lepton and baryon number conservation, etc., making the CEPC a vibrant platform for flavor physics research. The WW threshold scan, Higgs-factory operation and top-pair productions of the CEPC further enhance its merits in this regard, especially for measuring the Cabibbo-Kobayashi-Maskawa matrix elements, and Flavor-Changing-Neutral-Current physics of Higgs boson and top quarks. We outline the requirements for detector performance and considerations for future development to achieve the anticipated scientific goals. The role of machine learning for innovative detector design and advanced reconstruction algorithms is also stressed. The CEPC flavor physics program not only develops new capabilities for exploring flavor physics beyond existing projects but also enriches the physics opportunities of this machine. It should be remarked that, given the richness of the CEPC flavor physics, this manuscript is not meant to be a comprehensive survey, but rather an investigation of representative cases. Uncovering the full potential of flavor physics at the CEPC will require further dedicated explorations in the future.

AB - We discuss the landscape of flavor physics at the Circular Electron-Positron Collider (CEPC), based on the nominal luminosity outlined in its Technical Design Report. The CEPC is designed to operate in multiple modes to address a variety of tasks. At the Z pole, the expected production of 4 Tera Z bosons will provide unique and highly precise measurements of Z boson couplings, while the substantial number of boosted heavy-flavored quarks and leptons produced in clean Z decays will facilitate investigations into their flavor physics with unprecedented precision. We investigate the prospects of measuring various physics benchmarks and discuss their implications for particle theories and phenomenological models. Our studies indicate that, with its highlighted advantages and anticipated excellent detector performance, the CEPC can explore beauty and τ physics in ways that are superior to or complementary with the Belle II and Large-Hadron-Collider-beauty experiments, potentially enabling the detection of new physics at energy scales of 10 TeV and above. This potential also extends to the observation of yet-to-be-discovered rare and exotic processes, as well as testing fundamental principles such as lepton flavor universality, lepton and baryon number conservation, etc., making the CEPC a vibrant platform for flavor physics research. The WW threshold scan, Higgs-factory operation and top-pair productions of the CEPC further enhance its merits in this regard, especially for measuring the Cabibbo-Kobayashi-Maskawa matrix elements, and Flavor-Changing-Neutral-Current physics of Higgs boson and top quarks. We outline the requirements for detector performance and considerations for future development to achieve the anticipated scientific goals. The role of machine learning for innovative detector design and advanced reconstruction algorithms is also stressed. The CEPC flavor physics program not only develops new capabilities for exploring flavor physics beyond existing projects but also enriches the physics opportunities of this machine. It should be remarked that, given the richness of the CEPC flavor physics, this manuscript is not meant to be a comprehensive survey, but rather an investigation of representative cases. Uncovering the full potential of flavor physics at the CEPC will require further dedicated explorations in the future.

KW - CEPC

KW - flavor physics

KW - future collider

UR - https://www.scopus.com/pages/publications/105016539033

UR - https://www.scopus.com/pages/publications/105016539033#tab=citedBy

U2 - 10.1088/1674-1137/adf1f0

DO - 10.1088/1674-1137/adf1f0

M3 - Article

AN - SCOPUS:105016539033

SN - 1674-1137

VL - 49

JO - Chinese Physics C

JF - Chinese Physics C

IS - 10

M1 - 103003

ER -

Flavor physics at the CEPC: a general perspective

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