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Laser Induced breakdown spectroscopy (LIBS): Application to geological materials
Russian version
DOI: 10.21883/EOS.2022.13.53989.1003-21
Dubey Sonali1, Kumar Rohit2, Rai Abhishek K.3, Rai Awadhesh K.1
1Department of Physics, University of Allahabad, Prayagra, India
2Department of Physics, CMP Degree College, University of Allahabad, Prayagra, India
3Department of Earth and Planetary Sciences, Nehru Science Center, University of Allahabad, India
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Laser-induced breakdown spectroscopy (LIBS) is emerging as an analytical tool for investigating geological materials. The unique abilities of this technique proven its potential in the area of geology. Detection of light elements, portability for in-field analysis, spot detection, and no sample preparation are some features that make this technique appropriate for the study of geological materials. The application of the LIBS technique has been tremendously developed in recent years. In this report, results obtained from previous and most recent studies regarding the investigation of geological materials LIBS technique are reviewed. Firstly, we introduce investigations that report the advancement in LIBS instrumentation, its applications, especially in the area of gemology and the extraterrestrial/planetary exploration have been reviewed. Investigation of gemstones by LIBS technique is not widely reviewed in the past as compared to LIBS application in planetary exploration or other geological applications. It is anticipated that for the classification of gemstones samples, huge data set is appropriate and to analyze this data set, multivariate/chemometric methods will be useful. Recent advancement of LIBS instrumentation for the study of meteorites, depth penetration in Martian rocks and its regolith proved the feasibility of LIBS used as robotic vehicles in the Martian environment. Keywords: LIBS, gemstone, geological samples, extra-terrestrial.
  1. D.A. Cremers and L.J. Radziemski, Handbook of Laser-Induced Breakdown Spectroscopy, (John Wiley \& Sons, Chichester, 2006), pp. 9-16
  2. J.P. Singh and S.N. Thakur (Eds.), Laser-Induced Breakdown Spectroscopy (Elsevier, Amsterdam, 2007)
  3. R. Noll, Laser-Induced Breakdown Spectroscopy: Fundamentals and Applications (Springer, New York, 2012)
  4. T.L. Thiem, R.H. Salter, J.A. Gardner, Y.I. Lee, and J. Sneddon. Appl. Spectrosc. 48, 58 (1994)
  5. R. Barbini, F. Colao, R. Fantoni, A. Palucci, S. Ribezzo, H.J.L. van der Steen, and M. Angelone. Appl. Phys. B. Lasers Opt. 65, 101 (1997)
  6. B. Sall., P. Mauchin, and S. Maurice. Spectrochim. Acta Part B 62, 739 (2007)
  7. A. Ciucci, M. Corsi, V. Palleschi, S. Ratelli, A. Slavetti, and E. Tognoni. Appl. Spectrosc. 53, 960 (1999)
  8. E. Tognoni, G. Cristoforetti, S. Legnaiolia, and V. Palleschi. Spectrochim. Acta Part B 65, 1 (2010)
  9. D. Menut, P. Fichet, J.-L. Lacour, A. Rivoallan, and P. Mauchien. Appl. Opt. 42, 6063 (2003)
  10. Y. Lu, V. Zorba, X. Mao, R. Zheng, R.E. Russo. J. Analyt. Atom. Spectr. 28, 743 (2013)
  11. J.B. Sirven, B. Salle, P. Mauchien, J.L. Lacour, S. Maurice, and G. Manhes. J. Analyt. Atom. Spectr. 22, 1471 (2007)
  12. J.L. Gottfried, F.C. De Lucia Jr, C.A. Munson, and A.W. Miziolek. Analyt. Bioanalyt. Chem. 395, 283 (2009)
  13. C. Fabre, Spectrochim. Acta Part B 166, 105799 (2020)
  14. R.S. Harmon, R.E. Russo, R.R. Hark. Spectrochim. Acta Part B 87, 11 (2013)
  15. C. Fabre, M.C. Boiron, J. Dubessy, A. Chabiron, R. Charoy, T.M. Crespo. Geochimica et Cosmochimica Acta 66, 1401 (2002)
  16. C. Fabre, M.C. Boiron, J. Dubessy, and A. Moissette, J. Analyt. Atom. Spectr. 14, 913 (1999)
  17. T. Homma, A. Kumada, T. Fujii, H. Homma, and Y. Oishi. Spectrochim. Acta Part B 106, 206 (2021)
  18. J.P. Smith, L. Zou, Y. Liu, and X. Bu. Spectrochim. Acta Part B 105, 769 (2020)
  19. V.S. Dhanada, S.D. George, V.B. Kartha, S. Chidangil, and V.K. Unnikrishnan, Appl. Spectr. Rev. 23, 1 (2020)
  20. S. Romppanen, H. Hakkanen, J. Kekkonen, J. Nissinen, I. Nissinen, J. Kostamovaara, and S. Kaski, Journal of Raman Spectroscopy, 51, 1462-1469 (2020)
  21. K.J. Grant, G.L. Paul, and J.A. O'Neill. Appl. Spectrosc. 45, 701 (1991)
  22. K.J. Grant, G.L. Paul, and J.A. O'Neill, Appl. Spectrosc. 44, 1711 (1990)
  23. J. Vadillo and J. Laserna. Talanta 43, 1149 (1996)
  24. T.M. Crespo, A. Delgado, E.V. Catena, J.A.L. Garcea, and C. Fabre. Mar. Pet. Geol. 15, (2002)
  25. D. Derome, M. Cuney, M. Cathelineau, C. Fabre, J. Dubessy, P. Bruneton, and A. Hubert. J. Geochem. Explor. 80, 259 (2003)
  26. D. Derome, M. Cathelineau, C. Fabre, M.C. Boiron, D. Banks, T. Lhomme, and M. Cuney. Chem. Geol. 237, 240 (2007)
  27. Mader S. Master's Thesis, New Mexico State University (Las Cruces, New Mexico, USA), pp. 73 (2013)
  28. S.M. Clegg, E. Sklute, M.D. Dyar, J.E. Barefield, R.C. Wiens. Spectrochim. Acta Part B 64, 79 (2009)
  29. M.A. Gondal, T. Hussain, Z.H. Yamani, and M.A. Baig. Talanta 69, 1072 (2006)
  30. A.K. Rai, J.K. Pati, and R. Kumar. Opt. Laser Technol. 114, 146.157 (2019)
  31. R.C. Wiens and S. Maurice. Geol. Soc. Am. Abstr. Programs 44, 190 (2012)
  32. S. Palanco, A. Alises, J. Cunat, J. Beana, and J.J. Laserna. J. Analyt. Atom. Spectr. 18, 933 (2003)
  33. F.J. Fortes and J.J. Laserna. Spectrochim. Acta Part B 65, 975 (2010)
  34. F.J. Fortes, J.Cunat, L.M. Cabalin, and J.J. Laserna. Appl. Spectrosc. 61, 558 (2007)
  35. J. Cunat, S. Palanco, F. Carrasco, M.D. Simon, and J.J. Laserna. J. Analyt. Atom. Spectr. 20, 295 (2005)
  36. M. Gaft, I. Sapir-Sofer, H. Modiano, and R. Stana. Appl. Spectrosc. 62, 1496 (2007)
  37. L. Barrette and S. Turme. Spectrochim. Acta Part B 56, 715 (2001)
  38. M. Gaft, L. Nagli, I. Fasak, M. Kompitsas, and G. Wilsch. Spectrochim. Acta Part B 64, 1098 (2009)
  39. H. Wille, M. Rodriguez, J. Kasparian, D. Mondelain, J. Yu, A. Mysyrowicz, R. Sauerbrey, J.P. Wolf, and L. Woste. Eur. Phys. J. Appl. Phys. 20, 183 (2002)
  40. A. Vogel, K. Nahen, D. Theisen, and J. Noack. IEEE J. Sel. Top. Quantum 2, 847 (1996)
  41. D.F. Andradea, E.R. Pereira-Filho, and D. Amarasiriwarden. Appl. Spectr. Rev., 56
  42. R.S. Harmon and G.S. Senesi. Appl. Geochem. 128, 104929 (2021)
  43. G.S. Senesi, R.S. Harmon, and R.R. Hark. Spectrochim Acta Part B 175, 106013 (2021)
  44. N.J. McMillan, C.E. McManus, R.S. Harmon, F.C. De Lucia Jr, and A.W. Miziolek. Analyt. Bioanalyt. Chem. 385, 263 (2006)
  45. G. Agros., G. Tempesta, E. Scandale, S. Legnaioli, G. Lorenzetti, S. Pagnotta, V. Palleschi, A. Mangone, and M. Lezzerini. Spectrochim. Acta Part B 102, 48 (2014)
  46. G. Tempesta and G. Agros. Eur. J. Mineral. 28, 571 (2016)
  47. C.E. McManus, N.J. McMillan, R.S. Harmon, R.C. Whitmore, F.C. De Lucia Jr., and A.W. Miziolek. Appl. Opt. 47, G72 (2008)
  48. C.E. McManus, J. Dowe, and N.J. McMillan. Microsc. Microanal. 23, 2282 (2017)
  49. N.J. McMillan, C.E. McManus, R.S. Harmon, F.C. De Lucia, and A. W. Miziolek, Anal. Bioanal. Chem. 385, 263 (2006)
  50. C.E. McManus, J. Dowe, and N.J. McMillan. Spectrochim. Acta Part B 145, 79 (2018)
  51. A. De Giacomo, M. Dell'Aglio, O. De Pascale, S. Long, and M. Capitelli. Spectrochim. Acta Part B 62, 1606 (2007)
  52. M. Dell'Aglio, A. De Giacomo, R. Gaudiuso, O. De Pascale, G.S. Senesi, and S. Longo. Geochim. Cosmochim. Acta 74, 7329 (2010)
  53. A.K. Rai, J.K. Pati, C.G. Parigger, S. Dubey, A.K. Rai, B. Bhagabaty, A.C. Mazumdar, and K. Duorah. Molecules 25, (2020)
  54. R.C. Wiens and S. Maurice. Geol. Soc. Am. Abstr. Programs 44, 190 (2012)
  55. M. Nachon, S.M. Clegg, N. Mangold, S. Schroder, L.C. Kah, G. Dromart, A. Ollila, J.R. Johnson, D.Z. Oehler, J.C. Bridges, S. Le Mouelic, O. Forni, R.C. Wiens, R.B. Anderson, D.L. Blaney, J.F. Bell, B. Clark, A. Cousin, M.D. Dyar, B. Ehlmann, C. Fabre, O. Gasnault, J. Grotzinger, J. Lasue, E. Lewin, R. Leveille, S. McLennan, S. Maurice, P.Y. Meslin, W. Rapin, M. Rice, S.W. Squyres, K. Stack, D.Y. Sumner, D. Vaniman, and D. Wellington. J. Geophys. Res. Planets 119, 1991-2016 (2014)
  56. A.K. Rai, J.K. Pati, C.G. Parigger, and A.K. Rai. Atoms 7, 72 (2019)
  57. F. Colao, R. Fantoni, V. Lazic, A. Paolini, F. Fabbri, G.G. Ori, L. Marinangeli, and A. Baliva. Planet. Space Sci. 52, 117 (2004)
  58. Z.A. Arp, D.A. Cremers, R.C. Wiens, D.M. Wayne, B. Salle, and S. Maurice. Appl. Spectrosc. 59, 987 (2004)
  59. F. Colao, R. Fantoni, V. Lazic, A. Paolini, F. Fabbri, G.G. Ori, L. Marinangeli, and A. Baliva. Planet. Space Sci. 52, 117-123 (2004)
  60. J.B. Sirven, B. Sall., P. Mauchien, J.L. Lacour, S. Maurice, and G. Manhes. J. Anal. At. Spectrom. 22, 1471 (2007)
  61. R.B. Anderson, R.V. Morris, S.M. Clegg, J.F. Bell III, R.C. Wiens, S.D. Humphries, S.A. Mertzman, T.G. Graff, and R. McInroy. Icarus 215, 608 (2011)
  62. B. Ahlers, G. Bazalgette Courreges-Lacoste, and F. Rull Perez. Geophys. Res. Abstr. 9, 11112 (2007)
  63. V. Lazic, I. Rauschenbach, S. Jovicevic, E.K. Jessberger, R. Fantoni, and M. Di Fino. Spectrochim. Acta Part B 62, 1546 (2007)
  64. G. David, P.Y. Meslin, E. Dehouck, O. Gasnault, A. Cousin, O. Forni, G. Berger, J. Lasue, P. Pinet, R.C. Wiens, S. Maurice, J.F. Fronton, and W. Rapin. Icarus, 114481 (2021)

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