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Sec. C
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|
|
|
Presider
|
Shougang Zhang(张首刚)
|
|
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9:00-9:20
|
Lijun Wang(王力军)
Precision measurement of gravity and time, recent progress
|
14
|
|
9:20-9:40
|
Ite Yu(余怡德)
Stationary Light in Cold Atomic Media
|
15
|
|
9:40-10:00
|
Zongchao Yan(严宗朝)
Precision Studies of Few-Body Atomic and Molecular Systems
|
16
|
|
10:00-10:20
|
Tea Break
|
|
|
|
|
|
|
Presider
|
Tiancai Zhang(张天才)
|
|
|
10:20-10:40
|
Vincent Liu(刘文胜)
Novel p-orbital quantum phases in cold atom optical lattices
|
17
|
|
10:40-11:00
|
Zeyu Jeff Ou(区泽宇)
Quantum Optics with Atomic Spin Wave in Atomic Cell
|
18
|
|
11:00-11:20
|
Shengwang Du(杜胜望)
Narrow-Band Biphoton Generation and Quantum Waveform Manipulation with Cold Atoms
|
19
|
|
11:20-11:40
|
Kaijun Jiang(江开军)
Collective Oscillation of an Imbalanced Spin Population Fermi Gas
|
20
|
|
11:40-14:00
|
Lunch Time
|
|
|
|
|
|
|
|
|
|
|
Sec. D
|
|
|
|
Presider
|
Hong Gao(高宏)
|
|
|
14:00-14:20
|
Yingmei Liu(刘英梅)
Number Fluctuations and Phase Space Dynamics in Sodium Spinor Condensates
|
21
|
|
14:20-14:40
|
Zhongkun Hu(胡忠坤)
Progress on Cold Atom Interferometry Gravimeter
|
22
|
|
14:40-15:00
|
Qiang Lin(林强)
拉曼脉冲型原子干涉仪研究进展
|
23
|
|
15:00-15:20
|
Jianping Yin(印建平)
A controllable beam splitter for guided cold polar molecules
|
24
|
|
15:20-15:40
|
Guoxiang Huang(黄国翔)
Linear and Nonlinear Excitations in Superfluid Fermi Gases in BCS-BEC Crossover
|
25
|
|
15:40-16:40
|
Tea Break
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Sec.E
|
|
|
|
16:00-18:00
|
Posters
|
|
|
[P01]
|
Tiancai Zhang(张天才)
Single atom control and observation of single atom in real time based on strong coupling cavity QED
|
26
|
|
[P02]
|
Junmin Wang(王军民)
Achieving long storage lifetime of single atom in optical tweezer by laser cooling and improving background pressure
|
27
|
|
[P03]
|
Zhaoying Wang(王兆英)
The atomic coherence population control using stimulated Raman transitions
|
28
|
|
[P04]
|
Kai-Kai Huang(黄凯凯)
The Power Amplification System of Narrow Linewidth Laser in Atom Interferometry
|
29
|
|
[P05]
|
Ai-Ling Yang(杨爱林)
Investigation of Highly Sensitive Atomic Magnetometer
|
30
|
|
[P06]
|
Shuiming Hu(胡水明)
Count Trace Radioactive Kr Isotopes with an Atom Trap
|
31
|
|
[P07]
|
Haichao Zhang(张海潮)
Demonstration of Neutral Atom Guiding via Radio-Frequency Field
|
32
|
|
[P08]
|
Shuyu Zhou(周蜀渝)
Double-well Array Trapping Atoms Based on Binary Optics Method
|
33
|
|
[P09]
|
Jianliao Deng(邓见辽)
POP和PCS原子钟研究
|
34
|
|
[P10]
|
Zichao Zhou(周子超)
Progress of the Rubidium fountain atomic clock
|
35
|
|
[P11]
|
Chunyan Shi (史春艳)
Magnetic field measurement on 87Rb atomic fountain clock
|
36
|
|
[P12]
|
Xucheng Wang(王旭成)
Development of a Compact Cold Rubidium Atom Clock
|
37
|
|
[P13]
|
Peng Chen(陈鹏)
Narrowband Biphoton generation via four-wave mixing in cold atoms
|
38
|
|
[P14]
|
Hongli Liu(刘洪力), Jianfang Sun(孙剑芳)
Laser cooling and trapping of neutral mercury atoms
|
39
|
|
[P15]
|
Li Guo(郭丽)
Molecular dynamics simulation of disorder-induced heating in ultracold neutral plasma
|
40
|
|
[P16]
|
Jing Qian(钱静)
Efficient production of polar molecular Bose–Einstein condensates via an all-optical R-type atom–molecule adiabatic passage
|
41
|
|
[P17]
|
Xing-Dong Zhao(赵兴东)
A magical polarization orientation for canceling the dipole-dipole
interaction in ultracold Bosonic dipolar gases
|
42
|
|
[P18]
|
Cheng-ling Bian(边成玲)
Observation of single- and two-photon beating between independent Raman scattering
|
43
|
|
[P19]
|
Bixuan Fan(樊碧璇)
Generation of a single-photon source via a four-wave mixing process in a cavity
|
44
|
|
[P20]
|
Guo-Wan Zhang(张国万)
Enhanced Raman scattering by spatially distributed atomic coherence
|
45
|
|
[P21]
|
Shunyong Hou(侯顺永)
Stark deceleration for a supersonic ND3 molecular beam
|
46
|
|
[P22]
|
K. Zhang(张可烨)
Hamiltonian chaos in a coupled BEC–optomechanical-cavity system
|
47
|
|
[P23]
|
Xiaodong He(何晓东)
High efficient loading of two atoms into a microscopic optical trap by dynamically reshaping the trap with a spatial light modulator
|
48
|
|
[P24]
|
Jiaqi Zhong(仲嘉琪)
Measurements of the 5d6p 3F4→5d2 3F Transition Probabilities of Ba I
|
50
|
|
[P25]
|
Zheng Tan(谭政)
Realization of a Raman amplified atomic filter with switchable signal passband
|
51
|
|
[P26]
|
Zhanwei Yao(姚占伟)
Atom gyroscope based on dual-loop interferometer
|
52
|
|
[P27]
|
Lin Zhou(周林)
Measurement of Local Gravity via a Cold Atom Interferometer
|
53
|
|
[P28]
|
Peng Xu(许鹏)
Trapping a single atom in a optical bottle beam trap
|
54
|
|
[P29]
|
Xi Chen(陈曦)
Resent progress in cold atom Coherent Population Trapping frequency standard
|
55
|
|
[P30]
|
Fei Zhou(周飞)
Experimental Progress in Linear Paul Trap Quantum Information Processor
|
56
|
|
[P31]
|
Li-Ming Wang(王黎明)
Parallel Precision Calculations of Few-Body Atomic Systems
|
57
|
|
[P32]
|
Xiaojia Wang(王晓佳)
Dynamic responses of cold atoms to the magnetic field in an unbalanced 3D MOT
|
58
|
|
[P33]
|
Hongbo Xue(薛洪波)
Microwave signal generation with the optical frequency -selectively injection-locking of semiconductor laser diodes
|
59
|
|
[P34]
|
Nianfeng Liu(刘年丰)
NIM5铯原子喷泉时间频率基准钟的微波功率频移
|
60
|
|
[P35]
|
Weiliang Chen(陈伟亮)
标准频率信号超高稳定度光纤传输的研究与应用
|
61
|
|
[P36]
|
Qiang Wang(王强)
用689nm红光实现锶原子(88Sr)的二级冷却
|
63
|
|
[P37]
|
Tao Yang(杨涛)
碘分子跃迁谱线R(34)20-0和P(144)23-0超精细结构常数确定及超精细结构预测
|
64
|
|
[P38]
|
Kwang-Hua Chu(朱光华)
Possible Higher Temperature Regime of Frictionless States of Solid 4He
|
65
|
|
[P39]
|
Lie Zheng(郑烈)
冷原子研究新方法TOE
|
66
|
|
[P40]
|
Renyuan Liao
Superfluidity in Dipolar Fermi gas
|
67
|
|
[P41]
|
Linjie Zhang(张临杰)
Long-rang interaction of ultracold Rydberg atoms
|
68
|
|
[P42]
|
Yueheng Lan(兰岳恒)
正交场中的原子减速问题
|
69
|
|
[P43]
|
Zhifang Xu(许志芳)
Ground states of a binary mixture of spinor atomic Bose-Einstein condensates
|
70
|
|
[P44]
|
Cunfeng Cheng(程存峰)
Liquid-N2 cooled intense Kr* beam for a high efficiency trap
|
71
|
|
[P45]
|
Jingfang Zhang(张敬芳)
laser cooling by partially coherent light
|
72
|
|
[P46]
|
Liyan Tang(唐丽艳)
Benchmark Calculations of Polarizabilities and Long-Range Dispersion Coefficients for Atoms and Ions
|
73
|
|
[P47]
|
Liyan Tang(唐丽艳)
Calculations of Polarizabilities and Hyperpolarizabilities for H2+, HD+ , and D2+ ions
|
74
|
|
[P48]
|
Hua Guan(管桦)
Status of 199Hg+ optical clock in NIST
|
75
|
|
18:00-
|
Dinner Time
|
|