[1]    Zhiwei Cui and Yiping Han. A review of the numerical investigation on the scattering of Gaussian beam by complex particles. Physics Reports. vol. 538, no. 2, pp. 39-75, 2014. （Impact Factor:22.91)

[2]     Zhiwei Cui, Yiping Han, Zhuyang Chen, and Lu Han. Scattering of Bessel beam by arbitrarily shaped composite particles with core–shell structure. Journal of Quantitative Spectroscopy & Radiative Transfer, vol. 144, pp. 108-116, 2014. 

[3]     Zhiwei Cui, Yiping Han, and Meiping Yu. Numerical investigation on the scattering of an arbitrarily incident Bessel beam by fractal soot aggregates. Chinese Physics Letters. vol. 31, no. 6, pp. 064206, 2014. 

[4]     Zhuyang Chen, Yiping Han, Zhiwei Cui, and Xiaowei Shi. Scattering of Bessel beam by a conducting spheroidal particle with dielectric coating. Journal of Quantitative Spectroscopy & Radiative Transfer, vol. 148, pp. 197-202, 2014. 

[5]      Zhuyang Chen, Yiping Han, Zhiwei Cui, and Xiaowei Shi. Scattering of a zero- order Bessel beam by a concentric sphere. Journal of Optics, vol. 16, no. 5, pp. 055701, 2014.  

[6]    L. Han, Y.P.Han, Z.W.Cui, J.J.Wang, Expansion of a zero-order Bessel beam in spheroidal coordinates by generalized Lorenz–Mie theory, Journal of Quantitative Spectroscopy & Radiative Transfer, vol. 31, no. 9, pp. 1946-1955, 2014

[7]    L. Han, Y.P. Han, G. Gouesbet, J.J. Wang, G. Gréhan. Photonic jet generated by spheroidal particle with Gaussian-beam illumination. J. Opt. Soc. Am. B , Vol. 31, No. 7 , p1476-1483，2014

[8]    L. Han, Y.P. Han, J.J. Wang, G. Gouesbet, G. Gréhan, Controllable and enhanced photonic jet generated by fiber combined with spheroid. Optics Letter. 133, pp. 72-80, 2014.  

[9]    L. Han, G. Gouesbet, Y.P. Han, G. Grehan, J.J. Wang, Intrinsic method for the evaluation of beam shape coefficients in spheroidal coordinates for on-axis standard configuration, Optics Communications, 310, pp. 125–137, 2014 

[10]J.J. Wang, L. Han, Y.P. Han, G. Gouesbet, X.C. Wu, Y.C. Wu, Shaped beam scattering from a single lymphocyte cell by generalized Lorenz-Mie theory, Journal of Quantitative Spectroscopy & Radiative Transfer. 133, pp. 72-80, 2014. 

[11]J.J. Wang, Y.P. Han, L. Han, W.Z. Cui, Electromagnetic scattering from gyroelectric anisotropic particle by the T-matrix method, Journal of Quantitative Spectroscopy & Radiative Transfer. 135, pp.20-29, 2014.

[12]Yuan Tian, YiPing Han, YingJie Lingand Xia Ai. Propagation of terahertz electromagnetic wave in plasma with inhomogeneous collision frequency. Physics of Plasmas , 21, 023301 2014

[1]     L. Han, Y.P.Han, J.J.Wang, G.Gouesbet, Internal and near-surface field distributions for a spheroidal particle illuminated by a focused Gaussian beam: On-axis case, Journal of Quantitative Spectroscopy & Radiative Transfer, vol 126, p.38-43. 2013.

[2]     X. Ai, Y. Tian, Y. P. Han, X. W. Shi, W. T. Li. Accurate modeling of the scattering of cloaks using dispersive FDTD method with higher-order algorithm. Journal of Quantitative Spectroscopy & Radiative Transfer 124 (2013) 28–36

[3]     G. Gouesbet, J.J. Wang, Y.P. Han. Solution to the intrinsic method for the evalutation of beam shape coefficients in spheroidal coordinates. Optics Communication, Vol.294, pp.29-35 (2013)

[1]     Yiping Han, Zhiwei Cui, and Wenjuan Zhao. Scattering of Gaussian beam by arbitrarily shaped particles with multiple internal inclusions. Optics Express, vol. 20, No. 2, pp. 718-731, 2012.

[2]     Yiping Han, Zhiwei Cui, and G. Gouesbet. Numerical simulation of Gaussian beam scattering by complex particles of arbitrary shape and structure. Journal of Quantitative Spectroscopy & Radiative Transfer, vol. 113, no. 13, pp. 1719-1727, 2012.

[3]     Zhiwei Cui, Yiping Han. Simulation of electromagnetic scattering by random discrete particles using a hybrid FE-BI-CBFM technique. Waves in Random and Complex Media. vol. 22, no. 2, pp. 207-221, 2012.

[4]      Zhiwei Cui, Yiping Han, and Wenjuan Zhao. Scattering of arbitrarily incident Gaussian beam by fractal soot aggregates. Journal of Optics, vol. 14, no. 3, pp. 035703, 2012.

[5]     Zhiwei Cui, Yiping Han, Jiajie Wang，and Wenjuan Zhao. Scattering of Gaussian beam by arbitrarily shaped inhomogeneous particles. Journal of Quantitative Spectroscopy & Radiative Transfer, vol. 113, no. 6, pp. 480-488, 2012.

[6]     Zhiwei Cui and Yiping Han. A hybrid finite element-boundary integral-charac- terristic basis function method for scattering by multiple 3-D cavities. Applied Computational Electromagnetics Society Journal, vol. 27, no. 6, pp. 791-496, 2012.

[8] Zhiwei Cui, Yiping Han, and Wenjuan Zhao. A domain decomposition of the Finite element- boundary integral method for scattering by deep cavities. Advanced Materials Research, vols. 383-390, pp. 2585-2589, 2012

[1]     Zhiwei Cui, Yiping Han, and Huayong Zhang. Scattering of an arbitrarily incident focused Gaussian beam by arbitrarily shaped dielectric particles. Journal of the Optical Society of America B, vol. 28, No. 11, pp. 2625-2632, 2011.

[2]     Zhiwei Cui, Yiping Han, and Qiang Xu. Numerical simulation of multiple scattering by random discrete particles illuminated by Gaussian beams. Journal of the Optical Society of America A, vol. 28, No. 11, pp. 2200-2208, 2011.

[3]     Zhiwei Cui, Yiping Han, and Changyou Li. Characterization of the light scattering by ensembles of randomly distributed soot aggregates. Journal of Quantitative Spectroscopy & Radiative Transfer, vol. 112, No. 17, pp. 2722-2732, 2011.

[4]     Zhiwei Cui, Yiping Han, Changyou Li, and Wenjuan Zhao. Efficient analysis of scattering from multiple 3-D cavities by means of a FE-BI-DDM method. Progress in Electromagnetics Research, vol. 116, pp. 425-439, 2011.

[5]     Zhiwei Cui, Yiping Han, and Minglei Li. Solution of CFIE-JMCFIE using parallel MOM for scattering by dielectrically coated conducting bodies. Journal of Electromagnetic Waves and Applications, vol. 25, no. 2. pp. 211-222, 2011.

[6]     Zhiwei Cui, Yiping Han, Xia Ai, and Wenjuan Zhao. A domain decomposition of the finite element-boundary integral method for scattering by multiple objects. Electromagnetics, vol. 31, no. 7. pp. 469-482, 2011.

[7]     Zhiwei Cui, Yiping Han, Minglei Li, and Wenjuan Zhao. Analysis of scattering by conducting objects covered with arbitrarily magnetized plasma using finite element-boundary integral-fast multipole algorithm. Waves in Random and Complex Media, vol. 21, no. 2. pp. 220-230, 2011.

[8]     G. Gouesbet, Feng Xu,and Yiping Han. Expanded desc[ant]ription of electromagnetic arbitrary shaped beams in spheroidal coordinates, for use in light scattering theories: A review. Journal of Quantitative and Radiative Thansfer, vol. 112, no. 14, pp. 2249-2267. 2011.

[9]     Xia Ai, Yiping Han, Zhuyang Chen, and Xiaowei Shi. A hybrid higher order FDTD scheme for modeling radar cross section of electrically large targets. Progress in Electromagnetics Research M, vol. 18, pp. 143-157, 2011.

[10] Xia Ai, Yiping Han, Changyou Li, and Xiaowei Shi, “Analysis of dispersion relation of piecewise linear recursive convolution fdtd method for space-varying plasma” Progress In Electromagnetics Research Letters, vol.22, page 83-93, 2011

[11] Jiajie Wang, G. Gréhan, Yiping. Han, S. Saengkaew, and G. Gouesbet. Numerical study of global rainbow technique: sensitivity to non-sphericity of droplets, Experiments in Fluids, vol. 51, no. 1, pp. 149-159, 2011.

[12] J. J. Wang, G. Gouesbet, Y. P. Han, and G. Gréhan，Study of scattering from a sphere with an eccentrically located spherical inclusion by generalized Lorenz–Mie theory: internal and external field distribution，JOSA A, Vol. 28, Issue 1, pp. 24-39，2011

[13] Jiajie Wang, G. Gouesbet, G. Gréhan, Yiping Han, and S. Saengkaew. Morphology-dependent resonances in an eccentrically la[ant]yered sphere illuminated by a tightly focused off-axis Gaussian beam: parallel and perpendicular beam incidence. Journal of the Optical Society of America A, vol. 28, no. 9, pp. 1849-1859, 2011.

[1]     Zhiwei Cui, Yiping Han, Qiang Xu, and Minglei Li. Parallel MOM solution of JMCFIE for scattering by 3-D electrically large dielectric objects. Progress in Electromagnetics Research M, vol. 12, pp. 217-228, 2010

[2]     G. Gouesbet, J.J. Wang, Y.P. Han, Transformations of spherical beam shape coefficients in generalized Lorenz–Mie theories through rotations of coordinate systems，I. General formulation ，Optics Communications 283 (2010) 3218–3225

[3]     J.J. Wang, G. Gouesbet , Y.P. Han, Transformations of spherical beam shape coefficients in generalized Lorenz–Mie theories through rotations of coordinate systems, II. Axisymmetric beams, Optics Communications 283 (2010) 3226–3234

[4]     G. Gouesbet, J.J. Wang, Y.P. Han, Transformations of spherical beam shape coefficients in generalized Lorenz–Mie theories through rotations of coordinate systems，III. Special values of Euler angles，Optics Communications 283 (2010) 3235–3243

[5]     G. Gouesbet, J.J. Wang, Y.P. Han, G.Grehan, Transformations of spherical beam shape coefficients in generalized Lorenz–Mie theories through rotations of coordinate systems. IV. Plane waves, Optics Communications 283 (2010) 3244–3254

[6]     Qiang Xu, Yiping Han, Xiaodong Zeng. Hyperboloid cylinder-plane lens for shaping laser diode array beam. Optik - International Journal for Light and Electron Optics, Vol.121，No.17, p.1596-1599, 2010

[7]     Qiang Xu，Yiping Han，Zhewei Cui ，Characteristic of laser diode beam propagation through a collimating lens，Applied Optics，Vol.49 549-553，2010,

[8]     Z.-W. Cui, Yiping. Han, Q. Xu, and M.-L. Li， Parallel MOM solution of JMCFIE for scattering by 3-D electrically large dielectric objects，Progress In Electromagnetics Research M，Vol. 12 217-228，2010

[9]     Z.-W. Cui, Y.-P. Han, and W.-J. Zhao, “A domain decomposition of the Finite element-boundary integral method for scattering by deep cavities”， International conference on Electrical Engineering and Automatic Control,vol.5, pp. 421-423, 2010.