Abstract:Inorder to improve the quality of laserinduced low alloy steel plasma spectrum, the influence of carbon plate barrier to the plasma radiation intensity was studied. The laser,which is spectrum analytical system is composed of a highenergy neodymium glass laser used for abating samples, a multifunctional and automatic grating spectrometer, and a CCD data acquisition system,which is used for recording plasma spectra. The experimental results showed that when a carbon plate was used to interrupt the axial transmission of plasma, the quality of plasma spectrum could be increased. For instance, when the distance between the carbon plate and the sample surface was 10 mm, the spectral intensities of element Al, Mn, Fe and Cr increased around 25%,37%,24% and 51%than that without interruption of carbon plate; while spectral signaltobackground ratio increased about 16%,23%,11% and 34%,respectively.By measuring the electron temperature, electron density and sample ablation massThe spectral enhancement mechanism with carbon plate barrier on axial transfer of plasma was studied
[1]Gupta G P, Suri B M,Verma A, et al. Quantitative elemental analysis of nickel alloys ug calibrationbased laserinduced breakdown spectroscopy [J]. J. Alloys Compd.,2011,509(9): 37403745
[2] Dzyubenko M I, Kolpakov S N, Kulishenko D F,et al. Rapid analysis of emission spectra for gold alloys[J].Appl . Spectrosc.,2010,77(2):279284
[3] Pandhija S, Rai N K, Rai A K,et,al. Contaminant concentration in environmental samples ug LIBS and CFLIBS[J] . Appl. Phys. B,2010,98(1):231241
[4] Buckley S G, Johnsen H A, Hencken K R, et al. Implementation of laserinduced breakdown spectroscopy as a continuous emissions monitor for toxic metals[J]. Waste Management, 2000, 20: 455462
[5] Multari R A, Cremers D A, Dupre J M ,et al. The use of laserinduced breakdown spectroscopy for distinguishing between bacterial pathogen species and strains[J].Appl. Spectrosc.,2010,64(7):750759
[6] Rauschenbach I, Jessberger E K, Pavlov S G, et al. Miniaturized LaserInduced Breakdown Spectroscopy for the insitu analysis of the Martian surface: Calibration and quantification[J]. Spectrochim. Acta Part B, 2010, 65(8):758768
[7] Dyar M D, Tucker J M, Humphries S, et al. Strategies for Mars remote LaserInduced Breakdown Spectroscopy analysis of sulfur in geological samples[J]. Spectrochim. Acta Part B,2011, 66(1): 3956
[8] 刘克玲,王云山,张金平,等.原子光谱分析的进展及其应用[J].光谱学与光谱分析(Spectroscopy and Spectral Analysis),2010,30(8):22482252
[9] Ahmed R, Baiga M A. A comparative study of gle and double pulse laser induced breakdown spectroscopy[J] .Appl. Phys., 2009,106(03):033307〖ZK)〗
[10] 〖ZK(#〗陈东,刘文清,李宏斌,等. 环境气体中激光诱导Fe等离子体发射光谱的时间演化特性[J].中国激光(Chinese Journal of Lasers),2005,32(10):13531356
[11] Li Y, Hu C H,Zhang H Z,et al.Optical emission enhancement of laserproduced copper plasma under a steady magnetic field[J].Appl. Opt.s,2009,48(4):B105B110
[13] Pandhija S, Rai N K, Rai A K,et al. Contaminant concentration in environmental samples ug LIBS and CFLIBS[J]. Appl. Phys. B, 2010 ,98(1): 231241
[14] Shaikh N M, Hafeez S, Kalyar M A, et al. Spectroscopic characterization of laser ablation brass plasma[J]. J. Appl. Phys. ,2008,104(10):103108
