[1] EIGLER D M, SCHWERIZER E K. Positioning single atoms with a scanning tunneling microscope ［J］. Nature, 1990, 344: 524-526.

[2] HWANG J, POTOTSCHNIG M, LETTOW R, et al.. A single-molecule optical transistor ［J］. Nature, 2009,460: 76-80.

[3] SANG IE, YASUHIRO T, TERUTAKE H. Novel contact probing method using single fiber optical trapping probe ［J］. Precision Engineering, 2009,33(3): 235-242.

[4] BEAULAC R, SCHNEIDER L, ARCHER PI, et al.. Light-induced spontaneous magnetization in doped colloidal quantum dots ［J］. Science, 2009,325(5943): 973-976.

[5] LIU X M, WANG J. Characterization of near-field distribution of optical fiber probe by FDTD ［J］. Acta Photonica Sinica, 2001, 21(10): 1234-1238. (in Chinese)

[6] TANAKA M. Boundary integral equations for computer aided design of near-field optics ［J］. Electronics and Communications in Japan, 1996,79(11): 101-108.

[7] VESPERINAS M N, CHAUMET P C, RAHMANI A. Near-field photonic forces ［J］. Philosophical Transactions of the Royal Society of London Series A, 2004,362: 719-737.

[8] WANG K Y, JIN Z, HUANG W H. The possibility of trapping and manipulating a nanometer scale particle by the SNOM tip ［J］. Optics Communications, 1998, 149: 38-42.

[9] ZHANG G P, ZHU Z R, LI Y P, et al.. Numerical analysis of near-field optical trapping using tapered fiber probe ［J］. SPIE, 2000, 4082: 321-328.

[10] OKAMOTO K, KAWATA S. Radiation force exerted on subwavelength particles near a nanoaperture ［J］. Physical Review Letters, 1999, 83(22): 4534-4537.

[11] GU M, KURIAKOSE S, GAN X S. A single beam near-field laser trap for optical stretching, folding and rotation of erythrocytes ［J］. Optics Express, 2007, 15(3): 1369-1375.

[12] REECE P J, CHVEZ V G, DHOLAKIA K. Near-field optical micromanipulation with cavity enhanced evanescent waves ［J］. Applied Physics Letters, 2006,88: 221116.

[13] KWAK E S, ONUTA T D, AMARIE D, et al.. Optical trapping with integrated near-field apertures ［J］. The Journal of Physical Chemistry B, 2004,108(36): 13607-13612.

[14] MELLOR C D, BAIN C D, LEKNER J. Pattern formation in evanescent wave optical traps ［J］. SPIE, 2005,5930: 59301C-1-10.

[15] NEUMAN K C, BLOCK S M. Optical trapping ［J］. Review of Scientific Instruments, 2004,75(9): 2787-2809.

[16] SVOBODA K, BLOCK S M. Biological applications of optical forces ［J］. Annual Review of Biophysics and Biomolecular Structures, 1994, 23(1): 247-285.

[17] BARTON J P, ALEXANDER D R, SCHAUB S A. Theoretical determination of net radiation force and torque for a spherical particle illuminated by a focused laser beam ［J］. Journal of Applied Physics, 1989, 66: 4594.

[18] YEE K S. Numerical solution of initial boundary value problems involving Maxwell's equations in isotropic media ［J］. IEEE Transactions on Antennas and Propagation, 1996,14(3): 302-307.

[19] GE D B, YAN Y B. Electromagnetic Wave and FDTD ［M］. First Edition, Xi’an: Xi’an University of Electronic Science and Technology Press, 2002: 232. (in Chinese)

[20] TAFLOVE A. Computational Electrodynamics: the Finite Difference Time Domain Method ［M］. Second Edition, Norwood: Artech House, 2000: 156.

[21] LIU B H, YANG L J, WANG Y, et al.. The numerical simulation of the near-field properties of near-field optical tweezers probe ［C］. 8th Chinese International Nanoscience and Technology Symposium, 2009: Z048. (in Chinese)

[22] MUR G. Absorbing boundary conditions for the finite difference approximation of the time domain electromagnetic field equations ［J］. IEEE Transactions on Electromagnetic Compatibility, 1981, EMC-23(4): 377-382.

[23] LIU B H,YANG L J,WANG Y.Simulation of near-field optical manipulator using the combination of a NSOM probe and an AFM metallic probe［J］. Journal of Applied Physics,2011,109(10): 104317-104317-6.

[24] LIU B H,YANG L J,WANG Y,et al..Particles nanomanipulation by the enhanced evanescent field through a near-field scanning optical microscopy probe［J］. Sensors & Actuators A: Physical,2011,169(1): 171-177.

[25] HU ZH, WANG J, LIANG J W. Manipulation of yeast cells by a tapered fiber probe and measurement of optical trapping force ［J］. Journal of the Korean Physical Society, 2005, 47: S9-S12.

[26] LIU B H, YANG L J, WANG Y. Light distribution analysis of optical fiber probe-based near-field optical tweezers using FDTD ［J］. Journal of Physics: Conference Series, 2009, 188: 012-029.

[27] ZHU X. Near-field optics and near-field microscopy: the basic principles and their applications ［J］. Journal of Peking University (Natural Science Edition), 1997, 33(3): 396. (in Chinese)

[28] TAYLOR R, HNATOVSKY C. Trapping and mixing of particles in water using a microbubble attached to an NSOM fiber probe ［J］. Optics Express, 2004,12(5): 916-928.