Vol. 33, issue 09, article # 6

Apeksimov D. V., Bаbushkin P. A., Geints Yu. E., Zemlyanov A. A., Kabanov A. M., Matvienko G. G., Oshlakov V. K., Petrov A. V., Ryabtsev V. M. Study of the emission glow of solids and anthropogenic aerosols in a field of high-power femtosecond laser radiation during self-focusing in air for remote sensing of the atmosphere. // Optika Atmosfery i Okeana. 2020. V. 33. No. 09. P. 698–704. DOI: 10.15372/AOO20200906 [in Russian].
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Abstract:

Results of the complex experimental study of the spectral and temporal characteristics of the emission glow of control samples of several substances in the solid state (imitation of topographic targets in the atmosphere) and in the form of solid aerosols (imitation of air pollutants) under the action of femtosecond pulses of a Ti:Sa laser (at a carrier wavelength of 800 nm) and nonlinear optical effects are presented.

Keywords:

solid targets, aerosol, atmosphere, femtosecond laser radiation, self-focusing, spectroscopy, remote sensing

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References:

   1. Bekker Yu. Spektroskopiya. M.: Tekhnosfera, 2009. 528 р.
   2. Boumans P.W.J.M. Inductively Coupled Plasma Emission Spectroscopy, Part 1: Methodology, Instrumentation and Performance. New York: Wiley-Interscience, 1987. 608 p.
   3. Aközbek N., Bowden C.M., Talebpour A., Chin S.L. Femtosecond pulse propagation in air: Variational analysis // Phys. Rev. 2000. V. E61. P. 4540–4549.
   4. Golik S.S., Il'in A.A., Kolesnikov A.V., Babij M.Yu., Kul'chin Yu.N., Bukin O.A. Vliyanie uslovij fokusirovki lazernogo izlucheniya na intensivnost' spektral'nyh linij v metode femtosekundnoj lazernoj iskrovoj spektroskopii zhidkosti // Pis'ma v ZhTF. 2013. V. 39, iss. 15. P. 72.
   5. Apeksimov D.V., Zemlyanov A.A., Iglakova A.N., Kabanov A.M., Kuchinskaya O.I., Matvienko G.G., Oshlakov V.K. Filamentatsiya teravattnyh lazernyh impul'sov na stometrovoj atmosfernoj trasse // Optika atmosf. i okeana. 2015. V. 28, N 3. P. 274–277; Apeksimov D.V., Zemlyanov A.A., Iglakova A.N., Kabanov A.M., Kuchinskaya O.I., Matvienko G.G., Oshlakov V.K., Petrov A.V. Filamentation of terawatt laser pulses along hundred-meter atmospheric paths // Atmos. Ocean. Opt. 2015. V. 28, N 4. P. 372–375.
  6. Stelmaszczyk K., Rohwetter P., Mejean G., Yu J., Salmon E., Kasparian J., Ackermann R., Wolf J.P., Woste L. Long-distance remote laser-induced breakdown spectroscopy using filamentation in air // Appl. Phys. Lett. 2004. V. 85, iss. 18. P. 3977–3979.
   7. Golik S.S., Bukin O.A., Il'in A.A., Sokolova E.B., Kolesnikov A.V., Babij M.Yu., Kul'chin Yu.N., Gal'chenko A.A. Opredelenie predelov obnaruzheniya elementov v vode metodom femtosekundnoj lazerno-iskrovoj spektroskopii // Zhurn. prikl. spektroskop. 2012. V. 79, N 3. P. 485–489. 
   8. Golik S.S., Ilyin A.A., Babiy M.Yu., Biryukova Yu.S., Lisitsa V.V., Bukin O.A. Determination of iron in water solution by time-resolved femtosecond laser-induced breakdown spectroscopy // Plasma Sci. Technol. 2015. V. 17, N 11. P. 975–978.
   9. Zajdel' A.N., Prokof'ev V.K., Rajskij S.M. Tablitsy spektral'nyh linij. M.: Nauka, 1969. 782 р.
  10. Shmidt V. Opticheskaya spektroskopiya dlya himikov i biologov. M.: Tekhnosfera, 2007. 368 p.  
  11. Apeksimov D.V., Gejnts Yu.E., Zemlyanov A.A., Kabanov A.M., Matvienko G.G., Oshlakov V.K. Upravlenie harakteristikami mnozhestvennoj filamentatsii femtosekundnyh lazernyh impul'sov v vozduhe // Optika atmosf. i okeana. 2019. V. 32, N 9. P. 717–725; Apeksimov D.V., Geints Yu.E., Zemlyanov A.A., Kabanov A.M., Matvienko G.G., Oshlakov V.K. Control of multiple filamentation of femtosecond laser pulses in air // Atmos. Ocean. Opt. 2020. V. 33, N 1. P. 42–50.
   12. Apeksimov D.V., Geints Yu.E., Zemlynov A.A., Kabanov A.M., Oshlakov V.K., Petrov A.V., Matvienko G.G. Controlling TW-laser pulse long-range filamentation in air by a deformable mirror // Appl. Opt. 2018. V. 57, N 34. 10 p. DOI: 10.1364/AO.99.099999.