We describe an experimental distributed temperature sensor that uses the temperature dependence of the Brillouin frequency shift. When a 22.2-km sensing length is used, we have observed a temperature resolution of 1°C and have obtained a spatial resolution of 10 m
We demonstrate a high spatial resolution single-ended spontaneous Brillouin-based distributed temper...
We present measurements of the Brillouin frequency shift in an optical fiber using a 1550 nm distrib...
A frequency-modulated continuous-wave technique is used to detect the presence of frequency shifts i...
We describe an experimental distributed temperature sensor that uses the temperature dependence of t...
We present a novel distributed temperature sensor that uses the temperature dependence of the freque...
We present a novel distributed temperature sensor that uses the temperature dependence of the freque...
We present a novel distributed temperature sensor that uses the temperature dependence of the freque...
A novel configuration is presented here, based on the pump and probe technique, that has the followi...
We present a novel distributed sensor that utilizes the temperature and strain dependence of the fre...
We present a novel distributed sensor that utilizes the temperature and strain dependence of the fre...
We present a novel distributed sensor that utilizes the temperature and strain dependence of the fre...
We present a novel distributed sensor that utilizes the temperature and strain dependence of the fre...
Optical fiber sensors based on stimulated Brillouin scattering have now clearly demonstrated their e...
Distributed optical fibre temperature sensing (DTS) provides an elegant way of monitoring the temper...
Although distributed optical fibre temperature sensors based on Brillouin scattering have been resea...
We demonstrate a high spatial resolution single-ended spontaneous Brillouin-based distributed temper...
We present measurements of the Brillouin frequency shift in an optical fiber using a 1550 nm distrib...
A frequency-modulated continuous-wave technique is used to detect the presence of frequency shifts i...
We describe an experimental distributed temperature sensor that uses the temperature dependence of t...
We present a novel distributed temperature sensor that uses the temperature dependence of the freque...
We present a novel distributed temperature sensor that uses the temperature dependence of the freque...
We present a novel distributed temperature sensor that uses the temperature dependence of the freque...
A novel configuration is presented here, based on the pump and probe technique, that has the followi...
We present a novel distributed sensor that utilizes the temperature and strain dependence of the fre...
We present a novel distributed sensor that utilizes the temperature and strain dependence of the fre...
We present a novel distributed sensor that utilizes the temperature and strain dependence of the fre...
We present a novel distributed sensor that utilizes the temperature and strain dependence of the fre...
Optical fiber sensors based on stimulated Brillouin scattering have now clearly demonstrated their e...
Distributed optical fibre temperature sensing (DTS) provides an elegant way of monitoring the temper...
Although distributed optical fibre temperature sensors based on Brillouin scattering have been resea...
We demonstrate a high spatial resolution single-ended spontaneous Brillouin-based distributed temper...
We present measurements of the Brillouin frequency shift in an optical fiber using a 1550 nm distrib...
A frequency-modulated continuous-wave technique is used to detect the presence of frequency shifts i...
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