Abstract
An optimized iterative technique combining the merits of conventional
Gerchber-Saxton (G-S) and adaptive-additive (A-A) algorithms to design multilevel
computer-generated holograms for the creation of a desirable structured intensity
pattern for multiple optical manipulation is theoretically adopted. Optical trap
arrays are demonstrated with the help of liquid crystal spatial light modulator and
a microscopic optical tweezer system. Additionally, continuous locked-in transport
and deflection of microparticles with the generated optical lattice is proven
experimentally. The proposed method possesses apparent high efficiency, high
uniformity, and dynamic and reconfigurable advantages.
© 2011 Chinese Optics Letters
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