Litcius/Paper detail

Intensity noise transfer properties of a Yb-doped single-frequency fiber amplifier

Liu Liu, Can Li, Yue Tao, Man Jiang, Pu Zhou

2022Applied Optics11 citationsDOI

Abstract

In this work, the intensity noise transfer properties of a two-stage single-frequency fiber amplifier at 1 µm are systematically investigated in the frequency domain. By applying an artificial modulation signal to the driving current of the first- and second-stage pump sources, the pump and signal transfer functions of the second-stage amplifier are experimentally measured from 10 Hz to 100 kHz. By associating the theoretical model, the effects of pump power, the operating wavelength, and the absorption coefficient of the gain fiber on the pump and signal transfer properties are analyzed based on the experimental measurements. It turns out that the gain dynamics of the last-stage amplifier play an important role in determining the noise performances of the final amplified laser. Because the pump and signal transfer functions essentially behave as a low pass and damped high pass filter, the pump intensity noise of the last-stage amplifier dominates the amplifier system's overall noise performance. In addition, the effects of amplified spontaneous emission (ASE) on the intensity noise transfer properties are nontrivial, although it is not included in the theoretical model. It is believed that the current work provides a useful guideline for optimizing the design of high-power single-frequency fiber amplifiers with low-intensity noise.

Topics & Concepts

AmplifierOpticsNoise (video)Relative intensity noiseAmplified spontaneous emissionDirect-coupled amplifierMaterials sciencePhysicsOptoelectronicsLaserSemiconductor laser theoryOperational amplifierComputer scienceArtificial intelligenceCMOSImage (mathematics)Photonic Crystal and Fiber OpticsSpectroscopy and Laser ApplicationsAdvanced Fiber Laser Technologies
Intensity noise transfer properties of a Yb-doped single-frequency fiber amplifier | Litcius