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

Abstract 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.

[1]  F. Balembois,et al.  New green self-frequency-doubling diode-pumped Nd:Ca4GdO(BO3)3 laser , 1998 .

[2]  J. G. Solé,et al.  Self-frequency-summing NYAB laser for tunable blue generation , 1999 .

[3]  K. Wong,et al.  Growth and laser properties of Nd:Ca 4YO(BO 3) 3 crystal , 1999 .

[4]  Hiroyuki Furuya,et al.  Crystal Growth and Optical Characterization of Rare-Earth (Re) Calcium Oxyborate ReCa4O(BO3)3 (Re=Y or Gd) as New Nonlinear Optical Material , 1997 .

[5]  Z. Shao,et al.  Second harmonic generation and self-frequency doubling performance in Nd:GdCa4O(BO3)3 crystal , 1999 .

[6]  S. Pearton,et al.  GaN and Related Materials for Device Applications , 1997 .

[7]  G. J. Dixon,et al.  Generation of 20 mW of blue laser radiation from a diode‐pumped sum‐frequency laser , 1993 .

[8]  M. Nygren,et al.  Structural investigations of new calcium-rare earth (R) oxyborates with the composition Ca4Ro(BO3)3 , 1992 .

[9]  Babak Saif,et al.  vi INFORMATION FOR CONTRIBUTORS ix GENERAL EDITORIAL POLICIES xi EDITORIAL: Submitting Electronic Graphics Files OPTICS 1 Technique for integration of vertical cavity lasers and resonant photodetectors , 1998 .

[10]  I. Lindsay,et al.  Efficient Continuous-Wave and Q-Switched Operation of a 946-nm Nd:YAG Laser Pumped by an Injection-Locked Broad-Area Diode Laser. , 1998, Applied optics.

[11]  M. Richardson,et al.  DIODE-PUMPED SELF-FREQUENCY DOUBLING IN A ND3+:YCA4O(BO3)3 LASER , 1999 .

[12]  Martin Richardson,et al.  Investigation of diode-pumped, self-frequency doubled RGB lasers from Nd:YCOB crystals , 1999 .

[13]  A. Kahn-Harari,et al.  CW blue laser generation by self-sum frequency mixing in Nd:Ca4GdO(BO3)3 (Nd :GdCOB) single crystal , 1999 .

[14]  N. Cockroft Application of energy upconversion spectroscopy to novel laser and phosphor design , 1994 .

[15]  D. Cui,et al.  Structural Behavior of Thin BaTiO3 Film Grown at Different Conditions by Pulsed Laser Deposition , 1997 .

[16]  F. Balembois,et al.  Diode-pumped self-frequency-doubling Nd:GdCa 4 O(BO 3 ) 3 lasers: toward green microchip lasers , 2000 .

[17]  Klaus J. Boller,et al.  Investigation of efficient self-frequency-doubling Nd:YAB lasers , 1997 .

[18]  M. Joubert,et al.  Photon avalanche upconversion in rare earth laser materials , 1999 .

[19]  K. Yamada,et al.  Efficient intracavity sum-frequency generation of 490-nm radiation by use of potassium niobate. , 1994, Optics letters.

[20]  Frank Heine,et al.  Efficient laser performance of Nd:YAG at 946 nm and intracavity frequency doubling with LiJO3, β-BaB2O4, and LiB3O5 , 1997 .

[21]  J. G. Solé,et al.  BLUE-LIGHT LASER SOURCE BY SUM-FREQUENCY MIXING IN ND:YAL3(BO3)4 , 1998 .

[22]  Gerard Aka,et al.  Structural and thermal stability of Czochralski grown GdCOB oxoborate single crystals , 1998 .

[23]  G. Boulon,et al.  Self-frequency summing NYAB laser for tunable UV generation , 2000 .

[24]  A. Kahn-Harari,et al.  Infrared laser performance and self-frequency doubling of Nd3+:Ca4GdO(BO3)3 (Nd:GdCOB) , 1997 .

[25]  François Salin,et al.  Linear- and nonlinear-optical properties of a new gadolinium calcium oxoborate crystal, Ca 4 GdO(BO 3 ) 3 , 1997 .