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Applied Optics

Applied Optics

APPLICATIONS-CENTERED RESEARCH IN OPTICS

  • Vol. 33, Iss. 18 — Jun. 20, 1994
  • pp: 3857–3860

Solid-state multiple-prism grating dye-laser oscillators

F. J. Duarte  »View Author Affiliations


Applied Optics, Vol. 33, Issue 18, pp. 3857-3860 (1994)
http://dx.doi.org/10.1364/AO.33.003857


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Abstract

Compact solid-state multiple-prism grating dye-laser oscillators are shown to yield in excess of 9% conversion efficiency at Δν ≈ 1.12 GHz and a tuning range of 47 nm.

© 1994 Optical Society of America

History
Original Manuscript: October 4, 1993
Revised Manuscript: January 4, 1994
Published: June 20, 1994

Citation
F. J. Duarte, "Solid-state multiple-prism grating dye-laser oscillators," Appl. Opt. 33, 3857-3860 (1994)
http://www.opticsinfobase.org/ao/abstract.cfm?URI=ao-33-18-3857


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References

  1. F. J. Duarte, J. J. Ehrlich, W. E. Davenport, T. S. Taylor, J. C. McDonald, “A new tunable dye laser oscillator: preliminary report,” in Proceedings of the International Conference on Lasers ’92, C. P. Wang, ed. (STS, McLean, Va., 1993), pp. 293–296.
  2. F. J. Duarte, “Laser oscillator,” U.S. patent5,181,222 (19January1993).
  3. F. J. Duarte, “Narrow-linewidth pulsed dye laser oscillators,” in Dye Laser Principles, F. J. Duarte, L. W. Hillman, eds. (Academic, New York, 1990), pp. 133–183.
  4. F. J. Duarte, W. E. Davenport, J. J. Ehrlich, T. S. Taylor, “Ruggedized narrow-linewidth dispersive dye laser oscillator,” Opt. Commun. 84, 310–316 (1991). [CrossRef]
  5. B. Dunn, J. D. Mackenzie, J. I. Zink, O. M. Stafsudd, “Solid-state tunable lasers based on dye-doped sol-gel materials,” in Sol-Gel Optics, J. D. Mackenzie, D. R. Ulrich, eds., Proc. Soc. Photo-Opt. Instrum. Eng.1328, 174–182 (1990).
  6. The material was synthesized by S. Melpolder from Eastman Kodak Company.
  7. The modified PMMA was fabricated by a proprietary method by the Medpolymer Institute, Moscow, and was submitted to us by the New Trade Company, Moscow.
  8. F. J. Duarte, “Dispersive dye lasers,” in High Power Dye Lasers, F. J. Duarte, ed. (Springer-Verlag, Berlin, 1991), pp. 7–43.
  9. T. J. Pacala, I. S. McDermid, J. B. Laudenslager, “Single longitudinal mode operation of an XeCL laser,” Appl. Phys. Lett. 45, 507–509 (1984). [CrossRef]
  10. T. W. Hänsch, “Repetitively pulsed tunable dye laser for high resolution spectroscopy,” Appl. Opt. 11, 895–898 (1972). [CrossRef] [PubMed]
  11. S. Saikan, “Nitrogen-laser-pumped single-mode dye laser,” Appl. Phys. 17, 41–44 (1978). [CrossRef]
  12. M. G. Littman, “Single-mode operation of grazing-incidence pulsed dye laser,” Opt. Lett. 3, 138–140 (1978). [CrossRef] [PubMed]
  13. H. Daussy, R. Dumanchin, O. deWitte, “Fabry–Perot with short pulse lasers: spectral selection and spectral analysis in dye lasers,” Appl. Opt. 17, 451–458 (1978). [CrossRef] [PubMed]
  14. F. J. Duarte, J. A. Piper, “A double-prism beam expander for pulsed dye lasers,” Opt. Commun. 35, 100–104 (1980). [CrossRef]
  15. F. J. Duarte, J. A. Piper, “Narrow linewidth, high prf copper laser-pumped dye-laser oscillators,” Appl. Opt. 23, 1391–1394 (1984). [CrossRef] [PubMed]
  16. F. P. Schafer, “Principles of dye laser operation,” in Dye Lasers, F. P. Schafer, ed. (Springer-Verlag, Berlin, 1990), pp. 1–89.
  17. F. J. Duarte, J. A. Piper, “Multipass dispersion theory of prismatic pulsed dye lasers,” Opt. Acta 31, 331–335 (1984). [CrossRef]
  18. F. J. Duarte, “On a generalized interference equation and interferometric measurements,” Opt. Commun. 103, 8–14 (1993). [CrossRef]
  19. E. J. A. Pope, Matech, 31304 Via Colinas, Westlake Village, Calif. 91362 (personal communication, December1993).
  20. R. E. Hermes, T. H. Allik, S. Chandra, J. A. Hutchinson, “High-efficiency pyrromethene doped solid-state dye lasers,” Appl. Phys. Lett. 63, 877–879 (1993). [CrossRef]
  21. D. P. Pacheco, H. R. Aldag, I. Itzkan, P. S. Rostler, “A solid-state flashlamp-pumped dye laser employing polymer hosts,” in Proceedings of the International Conference on Lasers ’87, F. J. Duarte, ed. (STS, McLean, Va., 1988). pp. 330–337.
  22. E. J. A. Pope, M. Asami, J. D. Mackenzie, “Transparent silica gel–PMMA composites,” J. Mater. Res 4, 1018–1026 (1989). [CrossRef]
  23. The transparent silica gel–polymer nanocomposites were provided by E. J. A. Pope of Matech.

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