Frontiers of Physics分享 http://blog.sciencenet.cn/u/dudy75

博文

[转载]FOP | REPORT:中国超级陶粲装置概念设计报告(Volume 1):物理和探测器

已有 1681 次阅读 2023-12-5 13:38 |个人分类:物理前沿|系统分类:科研笔记|文章来源:转载

RESEARCH ARTICLE

M. Achasov, et al., STCF conceptual design report (Volume 1): Physics & detectorFront. Phys. 19(1), 14701 (2024)

全文下载:

https://journal.hep.com.cn/fop/EN/10.1007/s11‍467-023-1333-z;

https://journal.hep.com.cn/fop/EN/pdf/‍1‍0.1007/s11467-023-1333-z;

https://doi.org‍/10.1007/s11467-023‍-1333-z


image.png

在粒子物理研究领域,陶粲能区具有独特的性质、丰富的前沿物理课题和重大的科学发现潜力,是该领域重点关注的能区之一。为了使我国在该研究领域引领世界,中国科学家提出新一代超高亮度正负电子对撞机超级陶粲装置(英文全称Super Tau-Charm Facility, 简称STCF)。


中国超级陶粲装置项目是继北京正负电子对撞机(BEPCII)之后,中国未来可能的对撞机项目之一,设计亮度为0.5*1035cm-2·s-1,运行在质心能量2‒7 GeV能区,比目前正在运行的北京正负电子对撞机能量覆盖范围更大,亮度提高50倍以上,其上的探测器性能更加优良,将极大提升粲物理和强子谱学的研究能力,在陶轻子物理研究上取得开创性新成果,从而精确检验粒子物理标准模型和寻找新物理。该装置将为探索宇宙中正反物质的不对称性(CP破缺)、深入研究强子内部结构及非微扰强相互作用本质、寻找奇异物质和超越标准模型的新物理现象等前沿重大课题提供关键平台。


STCF加速器和探测器的建造将挑战众多国际最前沿的关键技术。该攻关项目于2022年启动,预计2025年完成关键技术攻关。受中国高能物理学会委托,中国科学技术大学牵头组织并联合国内外的研究单位开展该项目概念性设计和前期的预研工作。2015‒2020年分别由中国科学技术大学(2015 2020)、中国科学院大学(2018)、法国直线加速器实验室(2018)、俄罗斯科学院新西伯利亚核物理研究所(BINP)(2019)、承办了超级陶粲装置(STCF)的国际联合研讨会,来自中国、俄罗斯、瑞典、韩国、德国、意大利、波兰、美国和以色列等数百名国内外专家参与了相关会议。下一届国际研讨会将于2024114日至18日在中国科学技术大学举行。


由中外82家单位、400余位专家参与撰写的STCF conceptual design report (Volume 1): Physics & detector已经于Frontiers of Physics发表并上线【Front. Phys. 19(1), 14701 (2024)】。装置相关细节亦可以参考http://www.wuli.ac.cn/cn/article/doi/10.7693/wl20200803https://arxiv.org/abs/2303.15790


image.png

超级陶粲装置布局图.

image.png

中国超级陶粲装置加速器概念设计图.


image.png

中国超级陶粲装置探测器概念设计图.

image.png

超级陶粲装置STCF国际联合研讨会(2015‒2020.


FOP刊文章推荐

Electron-ion collider in China
Daniele P. Anderle, Valerio Bertone, Xu Cao, Lei Chang, Ningbo Chang, Gu Chen, Xurong Chen, Zhuojun Chen, Zhufang Cui, Lingyun Dai, Weitian Deng, Minghui Ding, Xu Feng, Chang Gong, Longcheng Gui, Feng-Kun Guo, Chengdong Han, Jun He, Tie-Jiun Hou, Hongxia Huang, Yin Huang, KrešImir KumeričKi, L. P. Kaptari, Demin Li, Hengne Li, Minxiang Li, Xueqian Li, Yutie Liang, Zuotang Liang, Chen Liu, Chuan Liu, Guoming Liu, Jie Liu, Liuming Liu, Xiang Liu, Tianbo Liu, Xiaofeng Luo, Zhun Lyu, Boqiang Ma, Fu Ma, Jianping Ma, Yugang Ma, Lijun Mao, Cédric Mezrag, Hervé Moutarde, Jialun Ping, Sixue Qin, Hang Ren, Craig D. Roberts, Juan Rojo, Guodong Shen, Chao Shi, Qintao Song, Hao Sun, Paweł Sznajder, Enke Wang, Fan Wang, Qian Wang, Rong Wang, Ruiru Wang, Taofeng Wang, Wei Wang, Xiaoyu Wang, Xiaoyun Wang, Jiajun Wu, Xinggang Wu, Lei Xia, Bowen Xiao, Guoqing Xiao, Ju-Jun Xie, Yaping Xie, Hongxi Xing, Hushan Xu, Nu Xu, Shusheng Xu, Mengshi Yan, Wenbiao Yan, Wencheng Yan, Xinhu Yan, Jiancheng Yang, Yi-Bo Yang, Zhi Yang, Deliang Yao, Zhihong Ye, Peilin Yin, C.-P. Yuan, Wenlong Zhan, Jianhui Zhang, Jinlong Zhang, Pengming Zhang, Yifei Zhang, Chao-Hsi Chang, Zhenyu Zhang, Hongwei Zhao, Kuang-Ta Chao, Qiang Zhao, Yuxiang Zhao, Zhengguo Zhao, Liang Zheng, Jian Zhou, Xiang Zhou, Xiaorong Zhou, Bingsong Zou, Liping Zou
Frontiers of Physics2021, 16(6): 64701

Machine learning transforms the inference of the nuclear equation of state
Yongjia Wang, Qingfeng Li
Frontiers of Physics2023, 18(6): 64402

On the question of quark confinement in the AbelianU(1) QED gauge interaction 
Cheuk-Yin Wong
Frontiers of Physics2023, 18(6): 64401

Taiji data challenge for exploring gravitational wave universe
Zhixiang Ren, Tianyu Zhao, Zhoujian Cao, Zong-Kuan Guo, Wen-Biao Han, Hong-Bo Jin, Yue-Liang Wu
Frontiers of Physics2023, 18(6): 64302

Introduction to the CDEX experiment
Ke-Jun Kang, Jian-Ping Cheng, Jin Li, Yuan-Jing Li, Qian Yue, Yang Bai, Yong Bi, Jian-Ping Chang, Nan Chen, Ning Chen, Qing-Hao Chen, Yun-Hua Chen, Yo-Chun Chuang, Zhi Deng, Qiang Du, Hui Gong, Xi-Qing Hao, Hong-Jian He, Qing-Ju He, Xin-Hui Hu, Han-Xiong Huang, Teng-Rui Huang, Hao Jiang, Hau-Bin Li, Jian-Min Li, Jun Li, Xia Li, Xin-Ying Li, Xue-Qian Li, Yu-Lan Li, Heng-Ye Liao, Fong-Kay Lin, Shin-Ted Lin, Shu-Kui Liu, Ya-Bin Liu, Lan-Chun Lü, Hao Ma, Shao-Ji Mao, Jian-Qiang Qin, Jie Ren, Jing Ren, Xi-Chao Ruan, Man-Bin Shen, Man-Bin Shen, Lakhwinder Simgh, Manoj Kumar Singh, Arun Kumar Soma, Jian Su, Chang-Jian Tang, Chao-Hsiung Tseng, Ji-Min Wang, Li Wang, Qing Wang, Tsz-King Henry Wong, Xu-Feng Wang, Shi-Yong Wu, Wei Wu, Yu-Cheng Wu, Zhong-Zhi Xianyu, Hao-Yang Xing, Xun-Jie Xu, Yin Xu, Tao Xue, Li-Tao Yang, Song-Wei Yang, Nan Yi, Chun-Xu Yu, Hao Yu, Xun-Zhen Yu, Xiong-Hui Zeng, Zhi Zeng, Lan Zhang, Yun-Hua Zhang, Ming-Gang Zhao, Wei Zhao, Su-Ning Zhong, Jin Zhou, Zu-Ying Zhou, Jing-Jun Zhu, Wei-Bin Zhu, Xue-Zhou Zhu, Zhong-Hua Zhu
Frontiers of Physics, 2018, 8(4): 412

Special Topic: Nuclear Chirality over the Past 25 Years

Special Topic: High Energy Astrophysics


ppt.jpg



https://blog.sciencenet.cn/blog-115136-1412544.html

上一篇:[转载]FOP | 前沿研究:山西大学汪丽蓉/元晋鹏团队 _ 在相干原子系综中实现几何结构可重构的光子石墨烯
下一篇:JCR发布期刊影响因子 & Scopus发布CiteScore
收藏 IP: 124.207.48.*| 热度|

0

该博文允许注册用户评论 请点击登录 评论 (0 个评论)

数据加载中...

Archiver|手机版|科学网 ( 京ICP备07017567号-12 )

GMT+8, 2024-11-23 00:42

Powered by ScienceNet.cn

Copyright © 2007- 中国科学报社

返回顶部