[1] |
Jintao Zheng(郑锦韬), Yang Zhang(张洋), Zaiyang Yu(鱼在洋), Zhiqiang Xiong(熊志强), Hui Luo(罗晖), and Zhiguo Wang(汪之国). Precision measurement and suppression of low-frequency noise in a current source with double-resonance alignment magnetometers[J]. 中国物理B, 2023, 32(4): 40601-040601. |
[2] |
Junqi Lai(赖君奇), Bowen Chen(陈博文), Zhiwei Xing(邢志伟), Xuefei Li(李雪飞), Shulong Lu(陆书龙), Qi Chen(陈琪), and Liwei Chen(陈立桅). Quantitative measurement of the charge carrier concentration using dielectric force microscopy[J]. 中国物理B, 2023, 32(3): 37202-037202. |
[3] |
Tianqi Feng(冯天琦), Chengyong Yu(余承勇), En Li(李恩), and Yu Shi(石玉). Application of the body of revolution finite-element method in a re-entrant cavity for fast and accurate dielectric parameter measurements[J]. 中国物理B, 2023, 32(3): 30101-030101. |
[4] |
Bao Feng(冯宝), Hai-Dong Huang(黄海东), Yu-Xiang Bian(卞宇翔), Wei Jia(贾玮), Xing-Yu Zhou(周星宇), and Qin Wang(王琴). Security of the traditional quantum key distribution protocolswith finite-key lengths[J]. 中国物理B, 2023, 32(3): 30307-030307. |
[5] |
Lu Yu(于露), Li Cao(曹俐), Ziqian Yue(岳子骞), Lin Li(李林), and Yueyang Zhai(翟跃阳). In situ temperature measurement of vapor based on atomic speed selection[J]. 中国物理B, 2023, 32(2): 20602-020602. |
[6] |
Yan-Ling Li(李艳玲), Yi-Bo Zeng(曾艺博), Lin Yao(姚林), and Xing Xiao(肖兴). Improving the teleportation of quantum Fisher information under non-Markovian environment[J]. 中国物理B, 2023, 32(1): 10303-010303. |
[7] |
Dao-Xin Liu(刘道信), Jian Cao(曹健), Jin-Bo Yuan(袁金波), Kai-Feng Cui(崔凯枫), Yi Yuan(袁易),Ping Zhang(张平), Si-Jia Chao(晁思嘉), Hua-Lin Shu(舒华林), and Xue-Ren Huang(黄学人). Laboratory demonstration of geopotential measurement using transportable optical clocks[J]. 中国物理B, 2023, 32(1): 10601-010601. |
[8] |
Lingzhi Kong(孔令志), Weiqi Liu(刘维琪), Fan Jing(荆凡), Zhe-Kun Zhang(张哲坤), Jin Qi(齐锦), and Chen He(贺晨). Improvement of a continuous-variable measurement-device-independent quantum key distribution system via quantum scissors[J]. 中国物理B, 2022, 31(9): 90304-090304. |
[9] |
Tian Guo(郭天), Peiliang Liu(刘培亮), and Chaohong Lee(李朝红). New designed helical resonator to improve measurement accuracy of magic radio frequency[J]. 中国物理B, 2022, 31(9): 93201-093201. |
[10] |
A-Peng Liu(刘阿鹏), Liu-Yong Cheng(程留永), Qi Guo(郭奇), Shi-Lei Su(苏石磊), Hong-Fu Wang(王洪福), and Shou Zhang(张寿). Direct measurement of two-qubit phononic entangled states via optomechanical interactions[J]. 中国物理B, 2022, 31(8): 80307-080307. |
[11] |
Qinyu Wang(王沁宇), Xinglin Tong(童杏林), Cui Zhang(张翠), Chengwei Deng(邓承伟), Siyu Xu(许思宇), and Jingchuang Wei(魏敬闯). Optical fiber FBG linear sensing systems for the on-line monitoring of airborne high temperature air duct leakage[J]. 中国物理B, 2022, 31(8): 84204-084204. |
[12] |
Shiying Cao(曹士英), Yi Han(韩羿), Yongjin Ding(丁永今), Baike Lin(林百科), and Zhanjun Fang(方占军). Precise determination of characteristic laser frequencies by an Er-doped fiber optical frequency comb[J]. 中国物理B, 2022, 31(7): 74207-074207. |
[13] |
Zhenyu Lin(林振宇), Tian Liu(刘天), Zongliang Li(李宗良), Yanhui Zhang(张延惠), and Kang Lan(蓝康). Quantum speed limit of the double quantum dot in pure dephasing environment under measurement[J]. 中国物理B, 2022, 31(7): 70307-070307. |
[14] |
Yueting Zhou(周月婷), Gang Zhao(赵刚), Jianxin Liu(刘建鑫), Xiaojuan Yan(闫晓娟), Zhixin Li(李志新), Weiguang Ma(马维光), and Suotang Jia(贾锁堂). Generation of stable and tunable optical frequency linked to a radio frequency by use of a high finesse cavity and its application in absorption spectroscopy[J]. 中国物理B, 2022, 31(6): 64206-064206. |
[15] |
Xinyao Yu(于馨瑶), Pingyu Zhu(朱枰谕), Yang Wang(王洋), Miaomiao Yu(余苗苗), Chao Wu(吴超),Shichuan Xue(薛诗川), Qilin Zheng(郑骑林), Yingwen Liu(刘英文), Junjie Wu(吴俊杰), and Ping Xu(徐平). Heralded path-entangled NOON states generation from a reconfigurable photonic chip[J]. 中国物理B, 2022, 31(6): 64203-064203. |