期刊
EUROPEAN JOURNAL OF PHYSICS
卷 38, 期 3, 页码 -出版社
IOP PUBLISHING LTD
DOI: 10.1088/1361-6404/aa6271
关键词
optical tweezers; simulation; evanescent fields; FDTD; scattering
资金
- Australian Research Council's Discovery Projects funding scheme [DP140100753]
It is common to introduce optical tweezers using either geometric optics for large particles or the Rayleigh approximation for very small particles. These approaches are successful at conveying the key ideas behind optical tweezers in their respective regimes. However, they are insufficient for modelling particles of intermediate size and large particles with small features. For this, a full field approach provides greater insight into the mechanisms involved in trapping. The advances in computational capability over the last decade have led to better modelling and understanding of optical tweezers. Problems that were previously difficult to model computationally can now be solved using a variety of methods on modern systems. These advances in computational power allow for full field solutions to be visualised, leading to increased understanding of the fields and behaviour in various scenarios. In this paper we describe the operation of optical tweezers using full field simulations calculated using the finite difference time domain method. We use these simulations to visually illustrate various situations relevant to optical tweezers, from the basic operation of optical tweezers, to engineered particles and evanescent fields.
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