[1] LI Shi-zhong, LI Xiang-ping, LI Ya-kun, et al. Technical characteristic and development trend of millimeter wave radar seeker［J］. Guidance & Fuze, 2007, 28(4): 11-15.

[2] XU Yan-ke, LIANG Xiao-geng, JIA Xiao-hong. Information fusion algorithm for radar/IR compound seeker［J］. Infrared and Laser Engineering, 2012, 41(1): 30-36.

[3] WANG Fei, LEI Hu-min. Optimum fusion algorithm for tracking based on IR/MMW dual-sensor guidance［J］. Infrared and Laser Engineering, 2008, 37(2): 250-254.

[4] HU Ti-ling, LI Xing-guo. Analysis of the key technology of MMW/IR compound seeker［J］. Laser & Infrared, 2007, 37(2): 101-103.

[5] ZHANG Ting, LI Jing, LIU Pan. Approach of IR/MMW compound guidance to tracking target based on particle filter［J］. Guidance & Fuze, 2006, 27(3): 19-24.

[6] HU Xiao-jun, NI Zhen-ming. Summarizer of millimeter wave/infrared compound guidance technology［J］. Guidance&Fuze, 2007, 28(4): 8-12.

[7] ZHAO Ji-jin, LI Xiao-xia, DOU Zheng-wei. Research status of exfoliated graphite attenuating infrared/millimeter-wave simultaneously［J］. Infrared Technology, 2010, 32(7): 399-402.

[8] CHUNG D D L. Electromagnetic interference shielding effectiveness of carbon materials［J］. Carbon, 2001, 39(2): 23-28.

[9] LUO X, CHUNG D D L. Electromagnetic interference shielding reaching 130 dB using flexible graphite［J］. Carbon, 1996, 34(10): 1293-1294.

[10] PAN Gong-pei, GUAN Hua, ZHU Chen-guang, et al. Study on anti-IR/millimeter wave smoke composition with expansive graphite［J］. Chinese Journal of Energetic Material, 2007, 15(1): 70-72.

[11] WU Yu, YIN Xi-feng, CUI Jian-lin, et al. Application of expandable graphite in explosive dispersion pyrotechnic composition［J］. Initiators & Pyrotechnics, 2004, 26(2): 27-29.

[12] GUAN Hua, PAN Gong-pei, ZHOU Zun-ning, et al. Experimental study on millimeter wave attenuation properties of expansible graphite smoke composition［J］. Initiators & Pyrotechnics, 2004, 26(2): 1-3.

[13] GUAN Hua, PAN Gong-pei, ZHOU Zun-ning. Properties of smoke formed by anti-IR-MMW compound smoke composition［J］. Journal of Nanjing University of Science and Technology, 2006, 30(1): 89-91.

[14] ZHU Chang-jiang, CHEN Zuo-ru. Study on two dimensional planar millimeter wave attenuation characteristic of expanded graphite［J］. Materials Science and Engineering, 2002, 20(4): 487-489.

[15] ZHU Chang-jiang, CHEN Zuo-ru. Study on two dimensional planar millimeter wave scattering cross section of expanded graphite［J］. Journal of Materials Science and Engineering, 2003, 21(3): 350-352.

[16] GUAN Hua, PAN Gong-pei, WANG Guang, et al. Study on the millimeter wave attenuation performance of expanded graphite in three-dimensional space［J］. Chinese Journal of Energetic Material, 2004, 12(5): 273-276.

[17] GOU Qing-quan. Electronic energy levels and absorption spectra of metal clusters and carbon clusters［J］. Chinese Journal of Atomic and Molecular Physics, 1994, 11(4): 337-347.

[18] GELZARD A, MARECHE J F, FURDIN G. Modelling of exfoliated graphite［J］. Progress in Materials Science, 2005, 50(1): 93-179.