An experimental characterization of the three-dimensional (3D) position and force constants, acting on one or multiple trapped polystyrene beads in a weak counterpropagating beams geometry is reported. The 3D position of the trapped particles is tracked by imaging with two synchronized CMOS cameras from two orthogonal views and used to determine the stiffness along all three spatial directions through power spectrum analysis and the equipartition method. For the case of three trapped beads we measure the dependence of the force constants on the counterpropagating beams waist separation. The maximal transverse stiffnesses, is about 0.1 pN/mm per mW at a beam waist separation of 67 mm whereas the longitudinal stiffness is approximately 20 times lower. The experimental findings are in reasonable agreement with a recent physical-geometric optics calculation.
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机译:报告了三维(3D)位置和力常数的实验表征,该常数作用于弱反向传播光束几何形状中的一个或多个俘获的聚苯乙烯珠。捕获的粒子的3D位置通过两个同步的CMOS摄像机从两个正交的视图进行成像进行跟踪,并通过功率谱分析和均分方法确定沿所有三个空间方向的刚度。对于三个被困的珠子,我们测量力常数对反向传播的束腰间距的依赖性。在束腰间距为67 mm时,最大横向刚度约为0.1 pN / mm / mW,而纵向刚度则低约20倍。实验结果与最近的物理几何光学计算合理地吻合。
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