论文信息 - Injection locking and mode selection in TEA-CO 2 laser oscillators

Injection locking and mode selection in TEA-CO 2 laser oscillators

The injection of a master oscillator signal in a high-power TEA-CO 2 laser is analyzed and a dynamic model is formulated to represent the interaction. Based on the competition between the injected signal and the spontaneous emission, the model describes the transient evolution of the different field amplitudes and phases together with their effect on the inversion. A study over a wide range of injection levels and detuning frequencies clearly indicates three distinct regions of operation: a spontaneous oscillation zone, a mode-selection zone, and a frequency-locking zone. The main predictions of the model are compared with the results obtained with an experimental injection apparatus that assures adequate control of the TEA laser cavity length and that provides means for measuring the frequency of the output pulse. While the first two zones are directly observed, it is experimentally established that, at injection levels up to 5 W/cm2, the frequency-locking zone does not exceed, as predicted, the 3-MHz resolution limit of the apparatus.

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