Lock James A
Department of Physics, Cleveland State University, 2121 Euclid Avenue, Cleveland, Ohio 44115-2440, USA.
Appl Opt. 2004 Apr 20;43(12):2532-44. doi: 10.1364/ao.43.002532.
Calculation of the radiation trapping force in laser tweezers by use of generalized Lorenz-Mie theory requires knowledge of the shape coefficients of the incident laser beam. The localized version of these coefficients has been developed and justified only for a moderately focused Gaussian beam polarized in the x direction and traveling in the positive z direction. Here the localized model is extended to a beam tightly focused and truncated by a high-numerical-aperture lens, aberrated by its transmission through the wall of the sample cell, and incident upon a spherical particle whose center is on the beam axis. We also consider polarization of the beam in the y direction and propagation in the negative z direction to be able to describe circularly polarized beams and reflected beams.
利用广义洛伦兹 - 米氏理论计算激光镊子中的辐射俘获力需要知道入射激光束的形状系数。这些系数的局部化版本仅针对沿x方向偏振且沿正z方向传播的适度聚焦高斯光束进行了开发和论证。在此,将局部化模型扩展到由高数值孔径透镜紧密聚焦和截断的光束,该光束在透过样品池壁时会产生像差,并入射到中心位于光束轴上的球形粒子上。我们还考虑了光束在y方向的偏振以及在负z方向的传播,以便能够描述圆偏振光束和反射光束。