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1.IntroductionFibergyros are widely used devices in aircraft industry. Our labwork experiment uses a commercial-type interferometer with all suitable integrated optics: superluminescent laser diode, integrated coupler and electro-optic modulators, 2 km monomode fiber-coil, photodiode. In a first part, with no modulation applied to the electro-optic modulators, the electric Sagnac signal delivered by the photodiode of the rotating fibergyro is transmitted to the laboratory recording station through a free space optical digital link and compared to an independant measurement that uses a classical optical encoder. Then, the Sagnac law can be precisely verified in the range [– 40 rpm, +40 rpm]. In a second part, with modulation applied and using a lock-in amplifier, the speed of Earth rotation can be estimated with a precision limited by the fibergyro sensitivity. 2.Experiment2.1Set-upFig.1 shows the set-up of the fibergyro. The conditioning of the signal and the digital transmission through the dedicated optical link from the moving plate to the measurement station will be detailed in the paper. 2.2Verification of Sagnac’s lawThe Sagnac signal Sg is recorded with the Lab VIEW software and finally plotted versus the speed of rotation Ω measured independently. Figure 2 shows the front ends of the virtual instrument with Sg and Ω variations. 2.3Speed of Earth rotationIn a second part, the extremly tiny useful signal due to the Earth rotation will be extract from noise with a lock-in amplifier and give an estimation of the speed of rotation (Ω ≈ 1.0 revolution per day ±10%), the uncertainty being governed by the electrical signal to noise ratio and the residual non-reciprocity of the interferometer. |