2016年粒子物理学热点回眸

阮曼奇; 傅雪; 陈明水; 周宁

doi:10.3981/j.issn.1000-7857.2017.01.002

科技导报 >

2017 , Vol. 35 >Issue 1: 16 - 20

DOI: https://doi.org/10.3981/j.issn.1000-7857.2017.01.002

专题论文

2016年粒子物理学热点回眸

阮曼奇 ,
傅雪 ,
陈明水 ,
周宁

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1. 中国科学院高能物理研究所实验物理中心, 北京 100049;
2. 《科技导报》编辑部, 北京 100081;
3. 中国科学院高能物理研究所天体物理中心, 北京 100049;
4. 上海交通大学物理与天文系粒子物理与核物理研究所, 上海 200240;
5. 清华大学物理系, 北京 100084

阮曼奇,副研究员,研究方向为粒子物理及探测器物理,电子信箱:manqi.ruan@ihep.ac.cn

收稿日期: 2016-12-25

修回日期: 2017-01-05

网络出版日期: 2017-02-16

基金资助

国家重点研发计划项目（2016YFA0400400）；中国科学院“百人计划”项目（Y3515540U1）

收起

Looking back 2016 significant events in particle physics

RUAN Manqi ,
FU Xue ,
CHEN Mingshui ,
ZHOU Ning

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1. Division of Experimental Physics, Institute of High Energy Physics, Chinese Academy of Sciences, Beijing 100049, China;
2. The Editorial Department of《Science & Technology Review》, Beijing 100081, China;
3. Division of Particle Astrophysics, Institute of High Energy Physics, Chinese Academy of Sciences, Beijing 100049, China;
4. INPAC, Department of Physics and Astronomy, Shanghai Jiao Tong University, Shanghai 200240, China;
5. Department of Physics, Tsinghua University, Beijing 100084, China

Received date: 2016-12-25

Revised date: 2017-01-05

Online published: 2017-02-16

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摘要

盘点了2016年粒子物理学的研究热点，在希格斯物理、新物理直接搜索方面提高了测量精度，积累了大量数据；中微子物理方面θ₁₃的测量精度提高到了4%；低能强相互作用物理方面确认了5夸克态的存在，同时发现多个可能的4夸克态；暗物质搜索方向全面压低WIMP粒子及其他类型暗物质粒子同普通物质相互作用的截面。

关键词： 粒子物理学; 研究热点; 希格斯玻色子; 低能强相互作用; 中微子; 暗物质

本文引用格式

阮曼奇 , 傅雪 , 陈明水 , 周宁 . 2016年粒子物理学热点回眸[J]. 科技导报, 2017 , 35(1) : 16 -20 . DOI: 10.3981/j.issn.1000-7857.2017.01.002

Abstract

Review the research hotspots of particle physics, improve the measurement accuracy and accumulated a large number of data in Higgs physics and new physics. In Neutrino physics, the measurement accuracy of θ₁₃ improved to 4%. low energy strong interaction physics confirmed 5 quark states, also found a number of possible 4 quark state dark matter search direction, and fully depressed WIMP particles and other types of cross section of dark matter particles with the interaction of ordinary matter.

Key words： particle physics; hotspots; higgs boson; low-energy feature of the strongly interactin; neutrino; dark matter

参考文献

[1] CERN. ATLAS report at CERN council[EB/OL].[2016-12-25]. http://indico.cern.ch/event/595054.
[2] CERN. CMS report at CERN council[EB/OL].[2016-12-25]. http://indico.cern.ch/event/595054.
[3] Indico. International workshop on next generation nucleon decay and neutrino detectors (NNN16)[EB/OL].[2016-12-25]. http://indico.ihep.ac.cn/event/6156.
[4] 中国科学院高能物理研究所大亚湾反应堆中微子实验工程办公室. Daya Bay reactor neutrino experiment[EB/OL].[2016-12-25]. http://dayabay.ihep.ac.cn/twiki/bin/view/Public.
[5] 曹俊.曹俊IHEP[EB/OL].[2016-12-27]. http://www.weibo.com/caojun73.
[6] Indico. LHCb report at CERN council[EB/OL].[2016-12-27]. http://indico.cern.ch/event/595054.
[7] LUX. Large Underground Xenon (LUX) dark matter detector[EB/OL].[2016-12-27]. http://www.sanfordlab.org/science/lux.
[8] PandaX Dark Matter Experiment. PandaX Dark Matter Experiment[EB/OL].[2016-12-27]. https://pandax.physics.sjtu.edu.cn.
[9] Kang Kejun, Cheng Jianping, Li Jin, et al. Introduction of the CDEX experiment[EB/OL].[2016-12-27]. https://arxiv.org/abs/1303.0601.
[10] Akerib D S, Araújo H M, Bai X, Improved limits on scattering of weakly interacting massive particles from reanalysis of 2013 LUX data[EB/OL].[2016-12-27]. https://arxiv.org/abs/1512.03506.
[11] Tan A, Xiao M, Cui X, et al. Dark matter results from first 98.7 day data of PandaX-II experiment[J]. 2016, 117(12):121303.
[12] Samuel Ting. The first 5 years of AMS on the International Space Station[EB/OL].[2016-12-27]. https://cdsweb.cern.ch/record/2238506?ln=en.

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