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Synthesis and Performance of Advanced Ceramic Lasers
Author(s) -
Ikesue A.,
Aung Yan Lin
Publication year - 2006
Publication title -
journal of the american ceramic society
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.9
H-Index - 196
eISSN - 1551-2916
pISSN - 0002-7820
DOI - 10.1111/j.1551-2916.2006.01043.x
Subject(s) - materials science , ceramic , laser , slope efficiency , polishing , crystallite , single crystal , transparent ceramics , optoelectronics , fabrication , doping , optics , composite material , fiber laser , wavelength , metallurgy , crystallography , medicine , chemistry , physics , alternative medicine , pathology
This paper reports recent progress in the production of polycrystalline Nd:YAG (Y 3 Al 5 O 12 ), Nd:YSAG (Y 3 Sc 1.0 Al 4.0 O 12 ), Yb:YSAG ceramics, and a Nd‐doped YAG single crystal with an almost perfect pore‐free structure by advanced ceramic processing. The laser conversion efficiency of pore‐free polycrystalline Nd‐ and Yb‐doped ceramics is extremely high, and their optical qualities are comparable with that of commercial high‐quality Nd:YAG single crystals. We have also succeeded in the fabrication of a Nd:YAG single crystal, which can be used for laser oscillation, by the solid‐state reaction method. Laser oscillation efficiency was very low when the pores remained inside the single crystal; however, the laser oscillation efficiency of the pore‐free Nd:YAG single crystal was slightly higher than that of polycrystalline Nd:YAG ceramics having high optical quality. From this fact, it was recognized that optical scattering occurs mainly in the residual pores inside the Nd:YAG ceramics and the scattering at the grain boundary is very less. In addition, we confirmed that a heavily doped Nd:YAG single crystal can be fabricated by the sintering method. Moreover, we have demonstrated the fabrication of a composite ceramic with complicated structures without the need for precise polishing and diffusion bonding. Advanced ceramic processing, which enables design flexibility of the laser element, presented in this work is important in the development of a high‐performance laser (high efficiency, high beam quality, and high output energy, etc.)

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