[1] V. Lazic, I. Rauschenbach S. Jovicevic et al.. Laser induced breakdown spectroscopy of soils, rocks and ice at subzero temperatures in simulated martian conditions [J]. Spectrochimica Acta Part B, 2007, 62(12):1546-1556
[2] Walid Tawfik, Y. Mohamed. Improved LIBS limit of detection of Be, Mg, Si, Mn, Fe and Cu in aluminum alloy samples using a portable Echelle spectrometer with ICCD camera [J]. Optics & Laser Technology, 2008, 40(1):30-33
[3] Sandra Koch, Walter Garen, Milos Muller et al.. Detection of chromium in liquids by laser-induced breakdown spectroscopy (LIBS) [J]. Appl. Phys. A, 2004, 79(4-6):1071-1073
[6] M. Gaft, I. Sapir-Sofer, H. Modiano et al.. Laser induced breakdown spectroscopy for bulk minerals online analyses [J]. Spectrochimica Acta Part B, 2007, 62(12):1496-1503
[7] Tae-Woo Lee, Nikhil Hegde. In-situ diagnostics of chemically reacting flows using laser-induced breakdown spectroscopy [C]. SPIE, 2005, 5710:130-137
[8] Cristian A.D’Angelo, Diego M. Diaz Pace, Graciela Bertuccelli et al.. Laser induced breakdown spectroscopy on metallic alloys: Solving inhomogeneous optically thick plasmas [J]. Spectrochimica Acta Part B, 2008, 63(3):367-374
[9] Nilesh K. Rai, A.K. Rai. LIBS-An efficient approach for the determination of Cr in industrial wastewater [J]. J. Hazardous Materials, 2008, 150(3):835-838
[10] P.S. Dalyander, I.B. Gornushkin, D.W. Hahn. Numerical simulation of laser-induced breakdown spectroscopy:modeling of aerosol analysis with finite diffusion and vaporization effects [J]. Spectrochimica Acta Part B, 2008, 63(2):293-304
[11] G.Cristofoerti, S. Legnaioli, V. Palleschi et al.. Effect of target composiotion on the emission enhancement observed in double-pulse laser-induced breakdown spectroscopy [J]. Spectrochimica Acta Part B, 2008, 63(2):312-323
[12] V. Burakov, N. Tarasenko, M. Nedelko et al.. Time-resolved spectroscopy and imaging diagnostics of single pulse and collinear double pulse laser induced plasma from a glass sample [J]. Spectrochimica Acta Part B, 2008, 63(1):19-26
[13] Ren Xifeng, Guo Guoping, Huang Yunfeng et al.. Experimental Investigations on Plasmon Assisted Transmission [J]. Science in China Series G, 2007, 37(6):706-715
[14] Xu Miaohua, Li Yutong, Yuan Xiaohui et al.. Generation of surface electrons in femtosecond laser-solid interactions [J]. Science in China Series G, 2006, 36(2):158-163
[15] Cao Zhenxin, Wu Lenan. Display technique based on surface plasmon resonant effect [J]. Chinese Science Bulletin, 2008, 53(8):857-864
[16] Chen Zhan, Wang WenCheng, Wang Gongming et al.. Enhancement of the Second harmonic generation at the siver surfaces with surface plasmons [J]. Chinese Science Bulletin, 1983, 28(15):905-909
[17] O. Barthe′lemy, J. Margot, M. Chaker et al.. Influence of the laser parameters on the space and time characteristics of an aluminum laser-induced plasma [J]. Spectrochimica Acta Part B, 2005, 60(7-8):905-914
[18] C. Colón, A. Alonso-Medina. Application of a laser produced plasma: Experimental Stark widths of single ionized lead lines [J]. Spectrochimica Acta Part B, 2006, 61(7):856-863
[19] F. Bredice, H. Sobral, M. Villagran-Muniz et al.. Real time measurement of the electron density of a laser generated plasma using a RC circuit [J]. Spectrochimica Acta Part B, 2007, 62(8):836-840
[20] X. Z. Zhao, L. J. Shen, T. X. Lu. Spatial distribution of electron density in microplasma produced by laser ablation of solids [J]. Appl. Phys. B, 1992, 55(4):327-330
[22] K. Dittrich, R. Wennrich. Laser Vaporization in Atomic Spectroscopy-Review [J]. Prog. Analyt. Atom. Spectrosc, 1984, 7(2):139-156
[23] Z. Andreic. Dynamics of Aluminum plasma produced by a nitrogen laser [J]. Physica Scripta, 1993,48:331-339
[24] H. R. Griem. Plasma Spectroscopy [M]. New York: McGraw2 Hill, 1964. 139-140
[25] W. Lochte-Holtgreven. Evalution of Plasma Parameter in Plasma Diagnostics [M]. North Holland: Amsterdam, 1968. 156-157
[26] Takashi Fujimoto. Kinetics of ionization-recombination of a plasma and population density of excited ions [J]. J. Phys. Soc. Jap., 1979, 47:265
