Continuous-wave and mode-locked lasers based on cubic sesquioxide crystalline hosts

Valentin Petrov; Klaus Petermann; Uwe Griebner; Volker Peters; Junhai Liu; Mauricio Rico; Peter Klopp; Günter Huber

doi:10.1117/12.665442

12 May 2006 Continuous-wave and mode-locked lasers based on cubic sesquioxide crystalline hosts

Valentin Petrov, Klaus Petermann, Uwe Griebner, Volker Peters, Junhai Liu, Mauricio Rico, Peter Klopp, Günter Huber

Proceedings Volume 6216, Laser Source and System Technology for Defense and Security II; 62160H (2006) https://doi.org/10.1117/12.665442
Event: Defense and Security Symposium, 2006, Orlando (Kissimmee), Florida, United States

Abstract

Among the crystalline rare earth laser hosts the isotropic sesquioxides Sc₂O₃, Y₂O₃, and Lu₂O₃ (cubic bixbyite structure) are known for their superior thermo-mechanical properties. Their thermal conductivity considerably exceeds that of Y₃Al₅O₁₂ (YAG). Their low phonon energy ensures large energy storage times by minimizing non-radiative relaxation processes. Yb-doped sesquioxides exhibit somewhat broader absorption and emission bandwidths than Yb:YAG which is advantageous for uncritical diode laser pumping and short pulse generation. The splitting of the lower Yb³⁺ manifold is also larger which is important in the quasi-four-level operation scheme. Solid solutions with the isostructural Yb₂O₃ are possible but the observed strong lifetime quenching makes the sesquioxide hosts more suitable for laser geometries that profit from relatively low Yb concentrations. Lu₂O₃ is the host whose thermal conductivity is least affected by Yb-doping. The high melting point (above 2400°C) makes it difficult to grow the sesquioxides from the melt. Recently, the use of the heat-exchanger-method (HEM) allowed to considerably enhance the optical quality of the grown crystals and the available single crystal size. Here we review the properties and present laser results obtained recently with Yb-doped sesquioxide crystals in the continuous-wave (cw) and mode-locked (picosecond and femtosecond) regimes using both Ti:sapphire and diode-laser pumping. In the cw regime optical-to-optical efficiency of 62.2% and slope efficiency of 72.7% were reached with Yb:Sc₂O₃ operating at 1041.6 nm. Passive mode-locking of both Yb:Sc₂O₃ and Yb:Lu₂O₃ was achieved by semiconductor saturable absorber mirrors. Pulse durations of the order of 200 fs were obtained with intracavity dispersion compensation.

Citation Download Citation

Valentin Petrov, Klaus Petermann, Uwe Griebner, Volker Peters, Junhai Liu, Mauricio Rico, Peter Klopp, and Günter Huber "Continuous-wave and mode-locked lasers based on cubic sesquioxide crystalline hosts", Proc. SPIE 6216, Laser Source and System Technology for Defense and Security II, 62160H (12 May 2006); https://doi.org/10.1117/12.665442

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