论文信息 - Time biasing due to the slow-light effect in distributed fiber-optic Brillouin sensors.

Time biasing due to the slow-light effect in distributed fiber-optic Brillouin sensors.

The influence of the slow-light effect on the performance of distributed Brillouin sensors is studied. We show that, while in most situations it can be neglected, it may greatly affect the results obtained for certain experimental configurations. More specifically, for one of the experimental arrangements described in the literature (a strong continuous-wave pump and a weak pulsed probe) we show that this effect induces a large time biasing of the traces that depends not only on the fiber length but also on the frequency separation between pump and probe. This biasing reduces the available resolution in this experimental arrangement.

Luc Thévenaz | Kwang Yong Song | Miguel González Herráez

[1] X. Bao,et al. 32-km distributed temperature sensor based on Brillouin loss in an optical fiber. , 1993, Optics letters.

[2] S. M. Maughan,et al. 57-km single-ended spontaneous Brillouin-based distributed fiber temperature sensor using microwave coherent detection. , 2001, Optics letters.

[3] T. Horiguchi,et al. Optical-fiber-attenuation investigation using stimulated Brillouin scattering between a pulse and a continuous wave. , 1989, Optics letters.

[4] Govind P. Agrawal,et al. Nonlinear Fiber Optics , 1989 .

[5] Boyd,et al. Noise initiation of stimulated Brillouin scattering. , 1990, Physical review. A, Atomic, molecular, and optical physics.

[6] T. Gogolla,et al. Distributed sensing technique based on Brillouin optical-fiber frequency-domain analysis. , 1996, Optics letters.

[7] L. Thévenaz,et al. Simple distributed fiber sensor based on Brillouin gain spectrum analysis. , 1996, Optics letters.

[8] Luc Thévenaz,et al. Observation of pulse delaying and advancement in optical fibers using stimulated Brillouin scattering. , 2005, Optics express.

[9] K. Hotate,et al. Distributed fiber Brillouin strain sensing with 1-cm spatial resolution by correlation-based continuous-wave technique , 2002, IEEE Photonics Technology Letters.