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Applied Optics

Applied Optics

APPLICATIONS-CENTERED RESEARCH IN OPTICS

  • Vol. 29, Iss. 33 — Nov. 20, 1990
  • pp: 4841–4842

Investigation of simultaneous two-photon H and single photon OH excitation in flames using a single dye laser

John E. M. Goldsmith  »View Author Affiliations


Applied Optics, Vol. 29, Issue 33, pp. 4841-4842 (1990)
http://dx.doi.org/10.1364/AO.29.004841


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Abstract

We investigate simultaneous excitation and fluorescence detection of OH and H in flames, using frequency-doubled (308-nm) and frequency-tripled (205-nm) beams generated using a single dye-laser system.

© 1990 Optical Society of America

History
Original Manuscript: January 17, 1990
Published: November 20, 1990

Citation
John E. M. Goldsmith, "Investigation of simultaneous two-photon H and single photon OH excitation in flames using a single dye laser," Appl. Opt. 29, 4841-4842 (1990)
http://www.opticsinfobase.org/ao/abstract.cfm?URI=ao-29-33-4841


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References

  1. U. Westblom, M. Alden, “Simultaneous Multiple Species Detection in a Flame Using Laser-Induced Fluorescence,” Appl. Opt. 28, 2592–2599 (1989).Reprinted in Appl. Opt. 29, 4844–4851 (1990). [CrossRef] [PubMed]
  2. J. E. M. Goldsmith, “Multiphoton Excitation Techniques in Combustion Diagnostics,” Mater. Res. Soc. Symp. Proc. 117, 193–201 (1988); J. E. M. Goldsmith, N. M. Laurendeau, “Single-Laser Two-Step Fluorescence Detection of Atomic Hydrogen in Flames,” Opt. Lett. (in press). [CrossRef]
  3. J. Bokor, R. R. Freeman, J. C. White, R. H. Storz, “Two-Photon Excitation of the n = 3 Level in H and D Atoms,” Phys. Rev. A 24, 612–614 (1981). [CrossRef]
  4. R. P. Lucht, J. T. Salmon, G. B. King, D. W. Sweeney, N. M. Laurendeau, “Two-Photon-Excited Fluorescence Measurement of Hydrogen Atoms in Flames,” Opt. Lett. 8, 365–367 (1983). [CrossRef] [PubMed]
  5. U. Meier, K. Kohse-Hoinghaus, Th. Just, “H and O Atom Detection for Combustion Applications: Study of Quenching and Laser Photolysis Effects,” Chem. Phys. Lett. 126, 567–573 (1986). [CrossRef]
  6. J. E. M. Goldsmith, “Protochemical Effects in 205-nm, Two-Photon-Excited Fluorescence Detection of Atomic Hydrogen in Flames,” Opt. Lett. 11, 416–418 (1986). [CrossRef] [PubMed]
  7. J. E. M. Goldsmith, “Two-Photon-Excited Stimulated Emission from Atomic Hydrogen in Flames,” J. Opt. Soc. Am. B 6, 1979–1985 (1989). [CrossRef]
  8. J. A. Coxon, “Optimum Molecular Constants and Term Values for the X2Π(ν ≤ 5) and A2∑+(ν ≤ 3) States of OH,” Can. J. Phys. 58, 933–949 (1980). [CrossRef]
  9. J. E. M. Goldsmith, “Photochemical Effects in 243-nm Two-Photon Excitation of Atomic Hydrogen in Flames,” Appl. Opt. 28, 1206–1213 (1989). [CrossRef] [PubMed]
  10. I. J. Wysong, J. B. Jeffries, D. R. Crosley, “Laser-Induced Fluorescence of O(3p3P), O2, and NO near 226 nm: Photolytic Interferences and Simultaneous Excitation in Flames,” Opt. Lett. 14, 767–769 (1989). [CrossRef] [PubMed]
  11. A. W. Miziolek, M. A. DeWilde, “Multiphoton Photochemical and Collisional Effects During Oxygen-Atom Flame Detection,” Opt. Lett. 9, 390–392 (1984). [CrossRef] [PubMed]
  12. J. B. Jeffries, R. A. Copeland, G. P. Smith, D. R. Crosley, “Multiple Species Laser-Induced Fluorescence in Flames,” in Twenty-First Symposium (Internal) on Combustion (The Combustion Institute, Pittsburgh, 1986), pp. 1709–1718.

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