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Swept Laser Sources (SLS) provide wide wavelength tuning range and high tuning speed making them attractive sources for sensing, biomedical and industrial imaging applications [1], [2]. MEMS based swept lasers have recently gained more attention with their potential low cost, high tuning speeds, high output power and possibility of integration with other devices [3], [4].The adaptation of MEMS based swept lasers in gas sensing would allow the detection of multiple gases at high speed and sensitivity with a single device which is a major benefit over many of the available commercial devices. In this work, we present practical sensing of carbon dioxide gas using a MEMS based swept laser. The SLS under study, as shown in figure 1(a), it consists of a ring fiber cavity of length 20 m, a semiconductor optical amplifier (SOA) as a gain medium, an isolator to allow a unidirectional laser operation, a fiber polarization controller, an intracavity in-plane MEMS optical tunable filter and a tapping fiber-coupler to couple some power out of the loop.
© 2019 IEEE
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