Please wait a minute...
Chinese Physics, 2000, Vol. 9(11): 824-826    DOI: 10.1088/1009-1963/9/11/005
CLASSICAL AREAS OF PHENOMENOLOGY Prev   Next  

EFFECT OF SPHERICAL ABERRATION INTRODUCED BY WATER SOLUTION ON TRAPPING FORCE

Yao Xin-cheng (姚新程)a, Li Zhao-lin (李兆霖)a, Guo Hong-lian (郭红莲)a, Cheng Bing-ying (程丙英)a, Han Xue-hai (韩学海)b, Zhang Dao-zhong (张道中)a
a Optical Physics Laboratory, Institute of Physics and Center for Condensed Matter Physics, Chinese Academy of Sciences, Beijing 100080, China; b State Key Laboratory of Biomacromolecules, Institute of Biophysics, Chinese Academy of Sciences, Beijing 100101, China
Abstract  Trapping force of an optical tweezers system with an oil immersion objective is calculated with a ray-optics model. Results indicate that the trapping force will be decreased as a result of the introduction of spherical aberration, which is caused by the refractive mismatch between objective oil and water, when the sample manipulated is suspended in a water solution. The effect of spherical aberration will be serious when the detection depth of the optical tweezers is enhanced.
Keywords:  spherical aberration      optical tweezers      trapping force  
Received:  06 April 2000      Revised:  24 May 2000      Accepted manuscript online: 
PACS:  37.10.Vz (Mechanical effects of light on atoms, molecules, and ions)  
  42.15.Fr (Aberrations)  
  82.70.Kj (Emulsions and suspensions)  
Fund: Project supported by the National Natural Science Foundation of China (Grant No. 1989380).

Cite this article: 

Yao Xin-cheng (姚新程), Li Zhao-lin (李兆霖), Guo Hong-lian (郭红莲), Cheng Bing-ying (程丙英), Han Xue-hai (韩学海), Zhang Dao-zhong (张道中) EFFECT OF SPHERICAL ABERRATION INTRODUCED BY WATER SOLUTION ON TRAPPING FORCE 2000 Chinese Physics 9 824

[1] Tunable phonon-atom interaction in a hybrid optomechanical system
Yao Li(李耀), Chuang Li(李闯), Jiandong Zhang(张建东),Ying Dong(董莹), and Huizhu Hu(胡慧珠). Chin. Phys. B, 2023, 32(4): 044213.
[2] Multiple bottle beams based on metasurface optical field modulation and their capture of multiple atoms
Xichun Zhang(张希纯), Wensheng Fu(付文升), Jinguang Lv(吕金光), Chong Zhang(张崇),Xin Zhao(赵鑫), Weiyan Li(李卫岩), and He Zhang(张贺). Chin. Phys. B, 2022, 31(8): 088103.
[3] Numerical study of optical trapping properties of nanoparticle on metallic film with periodic structure
Cheng-Xian Ge(葛城显), Zhen-Sen Wu(吴振森), Jing Bai(白靖), Lei Gong(巩蕾). Chin. Phys. B, 2019, 28(2): 024203.
[4] Analytical model for thermal lensing and spherical aberration in diode side-pumped Nd:YAG laser rod having Gaussian pump profile
M H Moghtader Dindarlu, M Kavosh Tehrani, H Saghafifar, A Maleki. Chin. Phys. B, 2015, 24(12): 124205.
[5] In situ calibrating optical tweezers with sinusoidal-wave drag force method
Li Di (李迪), Zhou Jin-Hua (周金华), Hu Xin-Yao (呼新尧), Zhong Min-Cheng (钟敏成), Gong Lei (龚雷), Wang Zi-Qiang (王自强), Wang Hao-Wei (王浩威), Li Yin-Mei (李银妹). Chin. Phys. B, 2015, 24(11): 118703.
[6] Self-organized voids revisited:Experimental verification of the formation mechanism
Song Juan (宋娟), Ye Jun-Yi (叶俊毅), Qian Meng-Di (钱梦迪), Luo Fang-Fang (骆芳芳), Lin Xian (林贤), Bian Hua-Dong (卞华栋), Dai Ye (戴晔), Ma Guo-Hong (马国宏), Chen Qing-Xi (陈庆希), Jiang Yan (姜燕), Zhao Quan-Zhong (赵全忠), Qiu Jian-Rong (邱建荣). Chin. Phys. B, 2014, 23(7): 077901.
[7] The effect of spherical aberration on temperature distribution inside glass by irradiation of a high repetition rate femtosecond pulse laser
Dai Ye(戴晔), Yu Guang-Jun(余光军), Wu Guo-Rui(武国睿), Ma Hong-Liang(马洪良), Yan Xiao-Na(阎晓娜), and Ma Guo-Hong(马国宏) . Chin. Phys. B, 2012, 21(2): 025201.
[8] Improvement of the axial trapping effect using azimuthally polarised trapping beam
Li Xue-Cong(李雪璁) and Sun Xiu-Dong(孙秀冬). Chin. Phys. B, 2010, 19(11): 119401.
[9] Influence of spherical aberrations on fundamental mode beam quality under different laser resonators
Xiang Zhen(项震), Hu Miao(胡淼), Ge Jian-Hong(葛剑虹), Zhao Zhi-Gang(赵智刚), Wang Sha(汪莎), Liu Chong(刘崇), and Chen Jun(陈军). Chin. Phys. B, 2009, 18(7): 2806-2815.
[10] Theoretical study of the trapping efficiency of an optical tweezers array system
Li Qin(李勤), Feng Wan-Li(冯万力), Hu Xiao-Ming(胡晓明), Cao Qun(曹群), Sha Ding-Guo(沙定国), and Lin Jia-Ming(林家明) . Chin. Phys. B, 2008, 17(2): 726-735.
[11] Systematical study of the trapping forces of optical tweezers formed by different types of optical ring beams
Xu Sheng-Hua (徐升华), Li Yin-Mei (李银妹), Lou Li-Ren (楼立人). Chin. Phys. B, 2006, 15(6): 1391-1397.
[12] Oscillatory disturbance in force calibration of optical tweezers
Liu Chun-Xiang (刘春香), Guo Hong-Lian (郭红莲), Jiang Yu-Qiang (降雨强), Li Zhao-Lin (李兆霖), Cheng Bing-Ying (程丙英), Zhang Dao-Zhong (张道中). Chin. Phys. B, 2005, 14(4): 729-733.
[13] Computer simulation of the collision frequency of two particles in optical tweezers
Xu Sheng-Hua (徐升华), Li Yin-Mei (李银妹), Lou Li-Ren (楼立人), Sun Zhi-Wei (孙祉伟). Chin. Phys. B, 2005, 14(2): 382-385.
[14] CONSTRUCTION OF AN OPTICAL TWEEZERS—CALCULATION AND EXPERIMENTS
Sun Wei (孙巍), Wang Yi-qiu (王义遒), Gao Chong-ming (高崇明). Chin. Phys. B, 2000, 9(11): 855-860.
No Suggested Reading articles found!