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Optics Express

Optics Express

  • Editor: Michael Duncan
  • Vol. 12, Iss. 14 — Jul. 12, 2004
  • pp: 3114–3124

Disk motion — a new control element in high-brightness solid state laser design

Santanu Basu and Arun Sridharan  »View Author Affiliations


Optics Express, Vol. 12, Issue 14, pp. 3114-3124 (2004)
http://dx.doi.org/10.1364/OPEX.12.003114


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Abstract

The brightness of cw and quasi cw solid state lasers of conventional designs is limited by stress fracture and uncorrectable phase aberration in thermally loaded stationary gain medium. By introducing physical motion of the gain medium as a new control element in the design of solid state lasers, we show the potential to significantly increase the brightness of cw and quasi cw solid state lasers. In this paper, we develop the design equations of rotary disk lasers and illustrate the design of a 1-kilowatt single mode Yb-YAG rotary disk laser.

© 2004 Optical Society of America

OCIS Codes
(140.0140) Lasers and laser optics : Lasers and laser optics
(140.3070) Lasers and laser optics : Infrared and far-infrared lasers
(140.3460) Lasers and laser optics : Lasers
(140.3580) Lasers and laser optics : Lasers, solid-state
(140.5680) Lasers and laser optics : Rare earth and transition metal solid-state lasers
(140.6810) Lasers and laser optics : Thermal effects

ToC Category:
Research Papers

History
Original Manuscript: April 30, 2004
Revised Manuscript: June 28, 2004
Published: July 12, 2004

Citation
Santanu Basu and Arun Sridharan, "Disk motion �?? a new control element in high-brightness solid state laser design," Opt. Express 12, 3114-3124 (2004)
http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-12-14-3114


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References

  1. M. Wickham, J. Anderegg, S. Brosnan, D. Hammons, H. Komine and M. Weber, ???Coherently Coupled High Power Fiber Arrays,??? paper MA4, presented at the Advanced Solid State Photonics Conf., Santa Fe, NM, 2004.
  2. C.H. Liu, A. Galvanauskas, B. Ehlers, F. Doerfel, S. Heinemann, A. Carter, K. Tankala and J. Farroni, ??? 810-W single transverse mode Yb-doped fiber laser,??? paper PD2-1, presented at the Advanced Solid State Photonics Conf., Santa Fe, NM, 2004.
  3. F. Butze, M. Larionov, K. Schuhmann, C. Stolzenburg and A. Giesen, ???Nanosecond pulsed thin disk Yb:YAG lasers,??? paper WA4, presented at the Advanced Solid State Photonics Conf., Santa Fe, NM, 2004.
  4. G. Holleman, G. Harpole, H. Injeyan, R. Moyer, M. Valley, J. Machan, R. St. Pierre, J. Berg and L. Marabella, ???Modelling High Brightness kW Solid State Lasers,??? Proc. SPIE 2989, 15-22 (1997). [CrossRef]
  5. M. Rotter, C. Brent Dane, S. Gonzales, R. Merrill, S. Mitchell, C. Parks and R. Yamamoto, ???The solid-state heat-capacity laser,??? paper PD8-1, presented at the Advanced Solid State Photonics Conf., Santa Fe, NM, 2004.
  6. S. Basu and R.L. Byer, ???Fiber coupled diode pumped moving solid state laser,??? U.S. Patent 4,890,289, 1990.
  7. S. Basu, "A high peak and high average power Nd:glass moving slab laser for soft X-ray generation," (Stanford University PhD dissertation, Stanford, CA 1988), pp. 180-188.
  8. S. Basu and R.L. Byer, ???Diode-pumped moving-disc laser: a new configuration for high average power generation,??? Opt. Quantum Electron., 23, 33-37 (1990). [CrossRef]
  9. S. Basu, J. Depsky, R.S. Shah and T. Endo, ???Numerical Designs of 100-kW Average Power Solid State Lasers,??? in Modeling and simulation of higher-power laser systems IV, U. Farrukh and S. Basu, eds. , Proc. SPIE 2989, 2-14 (1997).
  10. A. H. Paxton, S.M. Massey, J.B. McKay and H.C. Miller, ???Rotating-Disk Solid-State Lasers, Thermal Properties,??? in Laser Resonators and Beam Control VII , A. Kudryashov, ed., Proc. SPIE 5333, 12-17 (2004).
  11. S. Basu and R.L. Byer, ???40-W average power, 30-Hz moving-slab Nd-glass laser,??? Opt. Lett., 11, 617-619 (1986). [CrossRef] [PubMed]
  12. J. Korn, T.H. Jeys and T.Y. Fan, ???Continuous wave operation of a diode-pumped rotating Nd-glass disk laser,??? Opt. Lett., 16(24), 1741-1743 (1991). [CrossRef]
  13. S. M. Massey, J.B. McKay, T.H. Russell, A.H. Paxton, S. Basu, and H.C. Miller, ???Diode Pumped Nd:YAG and Nd:Glass Spinning Disk Lasers???, submitted for publication in JOSA B (2004).
  14. S. Basu and H.C. Miller, ???A 40-W single mode Yb-YAG rotary disk laser???, in Solid state and diode laser technology review, S. Ross, ed., (Directed Energy Professional Society, 2004), p. P-43.
  15. T.Y. Fan and R.L. Byer, ???Modeling and cw operation of a quasi-three-level 946 nm Nd:YAG laser,??? IEEE J. Quantum Electron, QE-23, 605-612 (1987).
  16. W.P. Risk, ???Modeling of longitudinally pumped solid-state lasers exhibiting reabsorption losses,??? J. Opt. Soc. Am B, 5, 1412-1423 (1988). [CrossRef]
  17. P. Peterson, A. Gavrielides and P. Sharma, ???Cw theory of a laser diode pumped two-manifold solid state laser,??? Opt. Commun., 109, 282-287 (1994). [CrossRef]
  18. C. D. Nabors, J. Ochoa, T. Y. Fan, A. Sanchez, H. K. Choi, and G. W. Turner, "Ho:YAG Laser Pumped by 1.9-µm Diode Lasers," IEEE J. Quantum Electron, 31, 1603-1605 (1995). [CrossRef]
  19. W.W. Rigrod, ???Saturation effects in high gain lasers,??? J. Appl. Phys., 36, 2487-2490 (1965). [CrossRef]
  20. A.E. Siegman, Lasers (University Science Books, 1986).
  21. R.B. Bird et al, Transport Phenomena (John Wiley & Sons, 1960).
  22. J.M. Eggleston, T.J. Kane, K. Kuhn, J. Unternahrer and R.L. Byer, IEEE J. Quantum Electron., ???The slab geometry laser. I-Theory,??? QE-20, 289-301 (1984). [CrossRef]
  23. T.Y. Fan, ???Heat generation in Nd:YAG and Yb:YAG,??? IEEE J. Quantum Electron, 29, 1457-1459 (1993). [CrossRef]

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