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Nd:GdCOB: overview of its infrared, green and blue laser performances

2001; Elsevier BV; Volume: 16; Issue: 1-2 Linguagem: Inglês

10.1016/s0925-3467(00)00080-x

1873-1252

D. Vivien, F. Mougel, F. Augé, G. Aka, Andrée Kahn‐Harari, François Balembois, Gaëlle Lucas-Leclin, Patrick Georges, Alain Brun, P. Aschehoug, J.M. Benitez, Nicole Le Nain, Michelle Jacquet,

Luminescence Properties of Advanced Materials

GdCOB (Ca4GdB3O10) is a new non-linear optical material which can be grown in large sized crystals by the Czochralski method. In this material, part of the gadolinium ions can be replace by Nd3+ without significant decrease of the crystal quality. Nd:GdCOB single crystals exhibit laser action in the infrared at 1060 and 1091 nm simultaneously. The two transitions involved originating from the two Kramers doublets of the 4F3/2 state, their respective contributions depend upon the temperature of the Nd:GdCOB crystal. By combining the non-linear properties of the GdCOB matrix and the laser emission due to ND3+ ions, it is possible to generate directly by self-frequency doubling 115 mW of green laser light at 530.5 nm under diode pumping at 810 nm. It is also possible to self-double the 936 nm emission of Nd:GdCOB, leading to blue laser emission, but only under pulsed titanium-sapphire laser pumping. However, a CW blue laser beam is obtained in Nd:GdCOB by self sum-frequency mixing of the 1090 nm laser emission and the residual pump beam at ∼812 nm, yielding 1.2 mW of 465 nm laser light, with an optical to optical efficiency of 0.3%. This paper ends with a survey of the Nd:YCOB laser characteristics which are compared to those of Nd:GdCOB.