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Original Articles

Spectroscopic Applications of Laser-Induced Plasmas

Vahid Majidi Department of Chemistry, University of Kentucky, Lexington, Kentucky, 40506

Martha R. Joseph Department of Chemistry, University of Kentucky, Lexington, Kentucky, 40506

Pages 143-162 | Published online: 23 Oct 2006

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https://doi.org/10.1080/10408349208050852

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H. Hegazy, E. A. Abdel-Wahab, F. M. Abdel-Rahim, S. H. Allam & A. M. A. Nossair. (2013) Laser-induced breakdown spectroscopy: technique, new features, and detection limits of trace elements in Al base alloy. Applied Physics B 115:2, pages 173-183.
Crossref

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Crossref

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Crossref

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Crossref

Walid Tawfik Y. Mohamed. (2008) 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. Optics & Laser Technology 40:1, pages 30-38.
Crossref

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Crossref

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Crossref

A.K. Rai, F.Y. Yueh, J.P. Singh & D.K. Rai. 2007. Laser-Induced Breakdown Spectroscopy. Laser-Induced Breakdown Spectroscopy 255 285 .

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Crossref

B Le Drogoff, J Margot, F Vidal, S Laville, M Chaker, M Sabsabi, T W Johnston & O Barthélemy. (2004) Influence of the laser pulse duration on laser-produced plasma properties. Plasma Sources Science and Technology 13:2, pages 223-230.
Crossref

S. Laville, F. Vidal, T. W. Johnston, M. Chaker, B. Le Drogoff, O. Barthélemy, J. Margot & M. Sabsabi. (2004) Modeling the time evolution of laser-induced plasmas for various pulse durations and fluences. Physics of Plasmas 11:5, pages 2182-2190.
Crossref

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Crossref

L. M. Cabalín & J. J. Laserna. (2004) Atomic emission spectroscopy of laser-induced plasmas generated with an annular-shaped laser beam. J. Anal. At. Spectrom. 19:4, pages 445-450.
Crossref

Linda G. Blevins, Christopher R. Shaddix, Shane M. Sickafoose & Peter M. Walsh. (2003) Laser-induced breakdown spectroscopy at high temperatures in industrial boilers and furnaces. Applied Optics 42:30, pages 6107.
Crossref

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Crossref

Valeri I. Babushok, Frank C. DeLucia, Paul J. Dagdigian, Michael J. Nusca & Andrzej W. Miziolek. (2003) Kinetic modeling of the laser-induced breakdown spectroscopy plume from metallic lead. Applied Optics 42:30, pages 5947.
Crossref

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Crossref

J. Kiel, J. Parker, P. Manson, E. Holwitt, L. Stribling, M. Sloan, P. Morales, J. Vivekananda, D. Gonzalez, A. Tijerina & J. Alls. (2003) Using specific binding DNA capture elements to direct pulsed power killing of biological agents. Using specific binding DNA capture elements to direct pulsed power killing of biological agents.

Awadhesh K. Rai, Fang Y. Yueh, Jagdish P. Singh & Hansheng Zhang. (2002) High temperature fiber optic laser-induced breakdown spectroscopy sensor for analysis of molten alloy constituents. Review of Scientific Instruments 73:10, pages 3589-3599.
Crossref

Tetsuo Sakka, Takashi Nakajima & Yukio H. Ogata. (2002) Spatial population distribution of laser ablation species determined by self-reversed emission line profile. Journal of Applied Physics 92:5, pages 2296-2303.
Crossref

P. A. Mosier-Boss, S. H. Lieberman & G. A. Theriault. (2002) Field Demonstrations of a Direct Push FO-LIBS Metal Sensor. Environmental Science & Technology 36:18, pages 3968-3976.
Crossref

D.C.S Beddows, O Samek, M Liška & H.H Telle. (2002) Single-pulse laser-induced breakdown spectroscopy of samples submerged in water using a single-fibre light delivery system. Spectrochimica Acta Part B: Atomic Spectroscopy 57:9, pages 1461-1471.
Crossref

Marincan PardedeHendrik KurniawanTjung Jie LieMay On TjiaKiichiro Kagawa. (2016) Direct Measurement of Charge Current by Employing a Mesh Electrode in the Laser Plasma Induced by a Nd:YAG Laser (I). Applied Spectroscopy 56:8, pages 994-999.
Crossref

D Bulajic, G Cristoforetti, M Corsi, M Hidalgo, S Legnaioli, V Palleschi, A Salvetti, E Tognoni, Steve Green, Derek Bates, Adolf Steiger, Josè Fonseca, Josè Martins, John McKay, Bryan Tozer, David Wells, Robert Wells & M.A Harith. (2002) Diagnostics of high-temperature steel pipes in industrial environment by laser-induced breakdown spectroscopy technique: the LIBSGRAIN project. Spectrochimica Acta Part B: Atomic Spectroscopy 57:7, pages 1181-1192.
Crossref

B. Charfi & M.A. Harith. (2002) Panoramic laser-induced breakdown spectrometry of water. Spectrochimica Acta Part B: Atomic Spectroscopy 57:7, pages 1141-1153.
Crossref

E Tognoni, V Palleschi, M Corsi & G Cristoforetti. (2002) Quantitative micro-analysis by laser-induced breakdown spectroscopy: a review of the experimental approaches. Spectrochimica Acta Part B: Atomic Spectroscopy 57:7, pages 1115-1130.
Crossref

K. M. Lo & N. H. Cheung. (2016) ArF Laser-Induced Plasma Spectroscopy for Part-per-Billion Analysis of Metal Ions in Aqueous Solutions. Applied Spectroscopy 56:6, pages 682-688.
Crossref

Jong-Il Yun, Reinhardt Klenze & Jae-Il Kim. (2016) Laser-Induced Breakdown Spectroscopy for the On-Line Multielement Analysis of Highly Radioactive Glass Melt. Part I: Characterization and Evaluation of the Method. Applied Spectroscopy 56:4, pages 437-448.
Crossref

U. Panne, R. E. Neuhauser, C. Haisch, H. Fink & R. Niessner. (2016) Remote Analysis of a Mineral Melt by Laser-Induced Plasma Spectroscopy. Applied Spectroscopy 56:3, pages 375-380.
Crossref

Norman E. Schmidt & Scott R. Goode. (2016) Analysis of Aqueous Solutions by Laser-Induced Breakdown Spectroscopy of Ion Exchange Membranes. Applied Spectroscopy 56:3, pages 370-374.
Crossref

Ota Samek, Helmut H Telle & David CS Beddows. (2001) Laser-induced breakdown spectroscopy: a tool for real-time, in vitro and in vivo identification of carious teeth. BMC Oral Health 1:1.
Crossref

Awadhesh K Rai, Hansheng Zhang, Fang Yu Yueh, Jagdish P Singh & Arel Weisberg. (2001) Parametric study of a fiber-optic laser-induced breakdown spectroscopy probe for analysis of aluminum alloys. Spectrochimica Acta Part B: Atomic Spectroscopy 56:12, pages 2371-2383.
Crossref

Demetrios Anglos. (2016) Laser-Induced Breakdown Spectroscopy in Art and Archaeology. Applied Spectroscopy 55:6, pages 186A-205A.
Crossref

F. Vidal, S. Laville, T.W. Johnston, O. Barthélemy, M. Chaker, B. Le Drogoff, J. Margot & M. Sabsabi. (2001) Numerical simulations of ultrashort laser pulse ablation and plasma expansion in ambient air. Spectrochimica Acta Part B: Atomic Spectroscopy 56:6, pages 973-986.
Crossref

H.H Telle, D.C.S Beddows, G.W Morris & O Samek. (2001) Sensitive and selective spectrochemical analysis of metallic samples: the combination of laser-induced breakdown spectroscopy and laser-induced fluorescence spectroscopy. Spectrochimica Acta Part B: Atomic Spectroscopy 56:6, pages 947-960.
Crossref

B. Le Drogoff, J. Margot, M. Chaker, M. Sabsabi, O. Barthélemy, T.W. Johnston, S. Laville, F. Vidal & Y. von Kaenel. (2001) Temporal characterization of femtosecond laser pulses induced plasma for spectrochemical analysis of aluminum alloys. Spectrochimica Acta Part B: Atomic Spectroscopy 56:6, pages 987-1002.
Crossref

Jong-Il Yun, Tobias Bundschuh, Volker Neck & Jae-Il Kim. (2016) Selective Determination of Europium(III) Oxide and Hydroxide Colloids in Aqueous Solution by Laser-Induced Breakdown Spectroscopy. Applied Spectroscopy 55:3, pages 273-278.
Crossref

Pascal Fichet, Patrick Mauchien, Jean-François Wagner & Christophe Moulin. (2001) Quantitative elemental determination in water and oil by laser induced breakdown spectroscopy. Analytica Chimica Acta 429:2, pages 269-278.
Crossref

J. Kiel, B. Rockwell, R. Sutter, J. Williams, D. Hardin, P. Morales, D. Eikum, R. Thomas, G. Noojin & J. Alls. (2001) Laser and microwave induced breakdown spectroscopy: basis for a new detection technique for chemical and biological agents. Laser and microwave induced breakdown spectroscopy: basis for a new detection technique for chemical and biological agents.

Ota Samek, Vladislav Krzyžánek, David C. S. Beddows, Helmut H. Telle, Josef Kaiser & Miroslav Liška. 2001. Computer Analysis of Images and Patterns. Computer Analysis of Images and Patterns 443 450 .

Hartmut Müller, Christine Strubel & Klaus Bange. (2006) Characterization and identification of local defects in glass. Scanning 23:1, pages 14-23.
Crossref

Robin S. McDowell & James F. Kelly. 2001. Kirk-Othmer Encyclopedia of Chemical Technology. Kirk-Othmer Encyclopedia of Chemical Technology.

Fang‐Yu Yueh, Jagdish P. Singh & Hansheng Zhang. 2007. Encyclopedia of Analytical Chemistry. Encyclopedia of Analytical Chemistry.

Michael Tran, Qing Sun, Benjamin Smith & James D Winefordner. (2000) Direct determination of trace elements in terephthalic acid by laser induced breakdown spectroscopy. Analytica Chimica Acta 419:2, pages 153-158.
Crossref

Dave C. S. Beddows. (2000) Application of laser-induced breakdown spectroscopy to <italic>in situ</italic> analysis of liquid samples. Optical Engineering 39:8, pages 2248.
Crossref

Hendrik Kurniawan, Tjung Jie Lie, Kiichiro Kagawa & May On Tjia. (2000) Laser-induced shock wave plasma spectrometry using a small chamber designed for in situ analysis. Spectrochimica Acta Part B: Atomic Spectroscopy 55:7, pages 839-848.
Crossref

R. E. Neuhauser, U. Panne & R. Niessner. (2016) Utilization of Fiber Optics for Remote Sensing by Laser-Induced Plasma Spectroscopy (LIPS). Applied Spectroscopy 54:6, pages 923-927.
Crossref

S. Y. Chan & N. H. Cheung. (2000) Analysis of Solids by Laser Ablation and Resonance-Enhanced Laser-Induced Plasma Spectroscopy. Analytical Chemistry 72:9, pages 2087-2092.
Crossref

Q Sun, M Tran, B.W Smith & J.D Winefordner. (2000) Determination of Mn and Si in iron ore by laser-induced plasma spectroscopy. Analytica Chimica Acta 413:1-2, pages 187-195.
Crossref

Andrew K. Knight, Nancy L. Scherbarth, David A. Cremers & Monty J. Ferris. (2016) Characterization of Laser-Induced Breakdown Spectroscopy (LIBS) for Application to Space Exploration. Applied Spectroscopy 54:3, pages 331-340.
Crossref

J. A. Bolger. (2016) Semi-Quantitative Laser-Induced Breakdown Spectroscopy for Analysis of Mineral Drill Core. Applied Spectroscopy 54:2, pages 181-189.
Crossref

Randall L. Vander Wal, Thomas M. Ticich, Joseph R. WestJr.Jr. & Paul A. Householder. (2016) Trace Metal Detection by Laser-Induced Breakdown Spectroscopy. Applied Spectroscopy 53:10, pages 1226-1236.
Crossref

P. Fichet, P. Mauchien & C. Moulin. (2016) Determination of Impurities in Uranium and Plutonium Dioxides by Laser-Induced Breakdown Spectroscopy. Applied Spectroscopy 53:9, pages 1111-1117.
Crossref

R.E Neuhauser, U Panne & R Niessner. (1999) Laser-induced plasma spectroscopy (LIPS): a versatile tool for monitoring heavy metal aerosols. Analytica Chimica Acta 392:1, pages 47-54.
Crossref

Yong-Ill Lee & Joseph Sneddon. 1999. 235 288 .

U Panne, M Clara, C Haisch & R Niessner. (1998) Analysis of glass and glass melts during the vitrification of fly and bottom ashes by laser-induced plasma spectroscopy. Part II. Process analysis. Spectrochimica Acta Part B: Atomic Spectroscopy 53:14, pages 1969-1981.
Crossref

U. Panne, C. Haisch, M. Clara & R. Niessner. (1998) Analysis of glass and glass melts during the vitrification process of fly and bottom ashes by laser-induced plasma spectroscopy. Part I: Normalization and plasma diagnostics. Spectrochimica Acta Part B: Atomic Spectroscopy 53:14, pages 1957-1968.
Crossref

J. M. Vadillo, J. M. Fern�ndez Romero, C. Rodr�guez & J. J. Laserna. (1998) Depth-resolved analysis by laser-induced breakdown spectrometry at reduced pressure. Surface and Interface Analysis 26:13, pages 995-1000.
Crossref

C. Haisch, U. Panne & R. Niessner. (1998) Combination of an intensified charge coupled device with an echelle spectrograph for analysis of colloidal material by laser–induced plasma spectroscopy. Spectrochimica Acta Part B: Atomic Spectroscopy 53:12, pages 1657-1667.
Crossref

L.M. Cabalín & J.J. Laserna. (1998) Experimental determination of laser induced breakdown thresholds of metals under nanosecond Q-switched laser operation. Spectrochimica Acta Part B: Atomic Spectroscopy 53:5, pages 723-730.
Crossref

N.H. Cheung, C.W. Ng, W.F. Ho & E.S. Yeung. (1998) Ultra-micro analysis of liquids and suspensions based on laser-induced plasma emissions. Applied Surface Science 127-129, pages 274-277.
Crossref

M. Mil?n, P. Lucena, L. M. Cabal?n & J. J. Laserna. (2016) Depth Profiling of Phosphorus in Photonic-Grade Silicon Using Laser-Induced Breakdown Spectrometry. Applied Spectroscopy 52:3, pages 444-448.
Crossref

I. Gobernado-Mitre, A. C. Prieto, V. Zafiropulos, Y. Spetsidou & C. Fotakis. (2016) On-Line Monitoring of Laser Cleaning of Limestone by Laser-Induced Breakdown Spectroscopy and Laser-Induced Fluorescence. Applied Spectroscopy 51:8, pages 1125-1129.
Crossref

Dolores Romero & J. Javier Laserna. (1997) Multielemental Chemical Imaging Using Laser-Induced Breakdown Spectrometry. Analytical Chemistry 69:15, pages 2871-2876.
Crossref

C. W. Ng, W. F. Ho & N. H. Cheung. (2016) Spectrochemical Analysis of Liquids Using Laser-Induced Plasma Emissions: Effects of Laser Wavelength on Plasma Properties. Applied Spectroscopy 51:7, pages 976-983.
Crossref

Xianglei Mao, Wing-Tat Chan & Richard E. Russo. (2016) Influence of Sample Surface Condition on Chemical Analysis Using Laser Ablation Inductively Coupled Plasma Atomic Emission Spectroscopy. Applied Spectroscopy 51:7, pages 1047-1054.
Crossref

T. Buchkamp, A. Garbrecht, G. Hermann & B. Kling. (1997) Size and distribution of particles deposited electrostatically onto the platform of a graphite furnace obtained using laser ablation sampling. Spectrochimica Acta Part B: Atomic Spectroscopy 52:9-10, pages 1525-1533.
Crossref

Liang Xu, Valery Bulatov, Vladimir V. Gridin & Israel Schechter. (1997) Absolute Analysis of Particulate Materials by Laser-Induced Breakdown Spectroscopy. Analytical Chemistry 69:11, pages 2103-2108.
Crossref

C. Haisch, J. Liermann, U. Panne & R. Niessner. (1997) Characterization of colloidal particles by laser-induced plasma spectroscopy (LIPS). Analytica Chimica Acta 346:1, pages 23-35.
Crossref

W. F. Ho, C. W. Ng & N. H. Cheung. (2016) Spectrochemical Analysis of Liquids Using Laser-Induced Plasma Emissions: Effects of Laser Wavelength. Applied Spectroscopy 51:1, pages 87-91.
Crossref

Paul K. Kennedy, Daniel X. Hammer & Benjamin A. Rockwell. (1997) Laser-induced breakdown in aqueous media. Progress in Quantum Electronics 21:3, pages 155-248.
Crossref

Ulrich Panne & Reinhard Nießner. 1997. Analytiker-Taschenbuch. Analytiker-Taschenbuch 157 272 .

Rosalie A. Multari, Leeann E. Foster, David A. Cremers & Monty J. Ferris. (2016) Effect of Sampling Geometry on Elemental Emissions in Laser-Induced Breakdown Spectroscopy. Applied Spectroscopy 50:12, pages 1483-1499.
Crossref

Aaron S. Eppler, David A. Cremers, Donald D. Hickmott, Monty J. Ferris & Aaron C. Koskelo. (2016) Matrix Effects in the Detection of Pb and Ba in Soils Using Laser-Induced Breakdown Spectroscopy. Applied Spectroscopy 50:9, pages 1175-1181.
Crossref

Valery Bulatov, Liang Xu & Israel Schechter. (1996) Spectroscopic Imaging of Laser-Induced Plasma. Analytical Chemistry 68:17, pages 2966-2973.
Crossref

R.A. Multari & D.A. Cremers. (1996) A time-resolved imaging study of Cr (I) emissions from a laser plasma formed on a sample at nonnormal incidence. IEEE Transactions on Plasma Science 24:1, pages 39-40.
Crossref

Brian J. Marquardt, Scott R. Goode & S. Michael Angel. (1996) In Situ Determination of Lead in Paint by Laser-Induced Breakdown Spectroscopy Using a Fiber-Optic Probe. Analytical Chemistry 68:6, pages 977-981.
Crossref

A. Fernandez, X. L. Mao, W. T. Chan, M. A. Shannon & R. E. Russo. (2002) Correlation of Spectral Emission Intensity in the Inductively Coupled Plasma and Laser-Induced Plasma during Laser Ablation of Solid Samples. Analytical Chemistry 67:14, pages 2444-2450.
Crossref

Mohamad Sabsabi & Paolo Cielo. (2016) Quantitative Analysis of Aluminum Alloys by Laser-Induced Breakdown Spectroscopy and Plasma Characterization. Applied Spectroscopy 49:4, pages 499-507.
Crossref

J. B. Simeonsson & A. W. Miziolek. (1994) Spectroscopic studies of laser-produced plasmas formed in CO and CO2 using 193, 266, 355, 532 and 1064 nm laser radiation. Applied Physics B Laser and Optics 59:1, pages 1-9.
Crossref

Nai-Ho Cheung & Edward S. Yeung. (2016) Single-Shot Elemental Analysis of Liquids Based on Laser Vaporization at Fluences below Breakdown. Applied Spectroscopy 47:7, pages 882-886.
Crossref

V. MAJIDI & M. R. JOSEPH. (2010) ChemInform Abstract: Spectroscopic Applications of Laser‐Induced Plasmas. ChemInform 24:25.
Crossref

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