The theory of the discrete-dipole approximation (DDA) for light scattering is extended to allow for the calculation of radiation forces on each dipole in the DDA model. Starting with the theory of Draine and Weingartner [Astrophys. J. 470, 551 (1996)] we derive an expression for the radiation force on each dipole. These expressions are reformulated into discrete convolutions, allowing for an efficient, O(N log N) evaluation of the forces. The total radiation pressure on the particle is obtained by summation of the individual forces. The theory is tested on spherical particles. The resulting accumulated radiation forces are compared with Mie theory. The accuracy is within the order of a few percent, i.e., comparable with that obtained for extinction cross sections calculated with the DDA.
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机译:扩展了用于光散射的离散偶极子近似(DDA)的理论,以允许计算DDA模型中每个偶极子上的辐射力。从Draine和Weingartner [Astrophys。 J. 470,551(1996)],我们得出了每个偶极子上的辐射力的表达式。这些表达式被重新构造为离散卷积,从而可以对力进行有效的O(N log N)评估。粒子上的总辐射压力是通过各个力的总和获得的。该理论在球形颗粒上进行了测试。将所得的累积辐射力与Mie理论进行比较。精度在百分之几的范围内,即,与用DDA计算的消光横截面所获得的精度相当。
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