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Recent Progress in Diamond Raman Lasers

Published online by Cambridge University Press:  16 February 2012

Richard P. Mildren
Richard P. Mildren*
Affiliation:
MQ Photonics Research Centre, Department of Physics and Astronomy, Macquarie University, New South Wales, 2109, Australia
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Abstract

In its relatively short history as a Raman laser material, CVD diamond has already demonstrated to be a forerunner in performance. Yet the more outstanding properties of the material such as its high thermal conductivity and wide transmission range remain largely unexploited. This paper summarizes the recent studies aimed to extend diamond laser capability beyond that readily achievable using other materials, focusing on in particular diamond Raman lasers in the ultraviolet, infrared and at high average powers.

Keywords

diamondlaseroptical properties
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1395: Symposium N – Diamond Electronics and Biotechnology–Fundamentals to Applications V , 2012 , mrsf11-1395-n01-01
Copyright
Copyright © Materials Research Society 2012

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References

REFERENCES

1. Mildren, R. P., Butler, J. E., and Rabeau, J. R., Opt. Express 16, 18950 (2008).Google Scholar
2. Mildren, R. P. and Sabella, A., Opt.Lett. 34, 2811 (2009).Google Scholar
3. Lubeigt, W., Bonner, G. M., Hastie, J. E., Dawson, M. D., Burns, D., and Kemp, A. J., Opt. Express 18, 16765 (2010).Google Scholar
4. Lubeigt, W., Bonner, G. M., Hastie, J. E., Dawson, M. D., Burns, D., and Kemp, A. J., Opt. Lett. 35, 2994 (2010).Google Scholar
5. Sabella, A., Piper, J. A., and Mildren, R. P., Opt.Lett. 35, 3874 (2010).Google Scholar
6. Spence, D. J., Granados, E., and Mildren, R. P., Opt. Lett. 35, 556 (2010).Google Scholar
7. Feve, J.-P. M., Shortoff, K. E., Bohn, M. J., and Brasseur, J. K., Opt. Express 19, 913 (2011).Google Scholar
8. Lubeigt, W., Savitski, V. G., Bonner, G. M., Geoghegan, S. L., Friel, I., Hastie, J. E., Dawson, M. D., Burns, D., and Kemp, A. J., Opt. Express 19, 6938 (2011).Google Scholar
9. Sabella, A., Piper, J. A., and Mildren, R. P., Opt. Express 19, 23554 (2011).Google Scholar
10. Parrotta, D. C., Kemp, A. J., Dawson, M. D., and Hastie, J. E., Opt. Express 19, 24165 (2011).Google Scholar
11. Jelínek, M., Kitzler, O., Jelínková, H., Šulc, J., and Němec, M., Laser Phys. Lett. 4, in press (2011).Google Scholar
12. Ammann, E.O and Falk, J., Appl. Phys. Lett. 27, 662, (1975).Google Scholar
13. McQuillan, A., Clements, W., and Stoicheff, B., Phys. Rev. A, 1, 628, (1970).Google Scholar
14. Mildren, R. P., Coutts, D. W., and Spence, D. J., Opt. Express 17, 810, (2009).Google Scholar
15. Savitski, V. G., Hastie, J. E., Dawson, M. D., Burns, D., and Kemp, A. J., CLEO Europe Conference Digest (Optical Society of America, 2011) paper PDA.2 TUE.Google Scholar
16. Granados, E., Spence, D. J., and Mildren, R. P., Opt. Express 19, 20422 (2011).Google Scholar
17. Pask, H. M., Dekker, P., Mildren, R. P., Spence, D. J., and Piper, J. A., Prog. Quantum Electron. 32, 121 (2008).Google Scholar
18. Benabid, F., Bouwmans, G., Knight, J., Russell, P., and Couny, F., Phys. Rev. Lett. 93, 1 (2004).Google Scholar
19. Grabtchikov, A.S., Lisinetskii, V. A, Orlovich, V.A., Schmitt, M., Maksimenka, R., and Kiefer, W., Opt Lett. 29, 2524, (2004).Google Scholar
20. Kononenko, V.V., Komlenok, M., Pimenov, S., and Konov, V. I., “Photoinduced laser etching of a diamond surface,” Quantum Electron. 37, 1043, (2007).Google Scholar
21. Mildren, R. P., Downes, J. E., Brown, J. D., Johnston, B. F., Granados, E., Spence, D. J., Lehmann, A., Weston, L., and Bramble, A., Opt. Mater. Express 1, 576, (2011).Google Scholar
22. Frenklach, M., Huang, D., Thomas, R. E., Rudder, R. A., and Markunas, R. J., Appl. Phys. Lett., 63, 3090 (1993).Google Scholar
23. Hilfer, G. and Menyuk, C. R., Opt. Lett. 17, 949 (1992).Google Scholar
24. Mildren, R. P., Opt. Lett. 36, 235 (2011).Google Scholar
25. http://www.darpa.mil/Our_Work/MTO/Programs/Black_Diamond.aspx, Dec 2011.Google Scholar
26. Lisinetskii, V. A., Riesbeck, T., Rhee, H., Eichler, H. J., and Orlovich, V. A., Appl. Phys. B 99, 127 (2010).Google Scholar
27. Kitzler, O., McKay, A. and Mildren, R.P., IQEC/CLEO Pacific Rim (Sydney), Aug 28-Sep1 (2011) Post Deadline Paper S1 Google Scholar
28. Grabtchikov, A. S., Lisinetskii, V. A., Orlovich, V. A., Schmitt, M., Maksimenka, R., and Kiefer, W., Opt. Lett. 29, 2524 (2004).Google Scholar