Abstract

In this paper, we report a new kind of beam, named “spoon-like” beams, generated with the exponential phase. The intensity distributions and transverse energy flow of the spoon-like beam at the focal plane are analyzed theoretically and experimentally. The results demonstrate that the size of the spoon-like beam becomes enlarged with the increasing power exponent n, and the length of the spoon-like intensity trajectory becomes shorter with the increasing parameter p. Furthermore, there is an intensity gradient along the spoon-like trajectory of the beam, which introduces the intensity-gradient force exerted onto microparticles. The experiment on optical tweezers demonstrates that the focused beams can create spoon-like traps for the two-dimensional manipulation of particles.

Highlights

  • Xiong, Y.; Leng, X.; Tao, S.; Tian, Y.; The use of highly focused Gaussian beams for optical trapping has been very successful [1,2]

  • LG beams can be extensively used in the field of optical rotation for phase-gradient force exerted on particles, and optical information encoding for the intrinsic and extrinsic nature of orbital angular momentum (OAM) [3]

  • We demonstrate optical guiding microparticles with transforming the spoon-like beam

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Summary

Introduction

Y.; Leng, X.; Tao, S.; Tian, Y.; The use of highly focused Gaussian beams for optical trapping has been very successful [1,2]. Distributions of the spoon-like beams, customized with the tailored exponential phase, are analyzed.

Results
Conclusion

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