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A 100-km BOFDA Assisted by First-Order Bi-Directional Raman Amplification

Kapa, Thomas / Schreier, Andy / Krebber, Katerina

We present, to our knowledge for the first time, a 100-km Brillouin Optical Frequency-Domain Analysis (BOFDA) employing a 200-km fiber loop. Compared to our previous publication, enhanced sensor length, sensor accuracy and spatial resolution are presented. The performance improvements are achieved by applying distributed Raman amplification (DRA) and a digital high-pass filter. We report on temperature measurements over sensing distances of 75 km and 100 km both with a 12.5-m spatial resolution. Temperature changes of 5 °C have been measured along 75 km sensing fiber. A temperature change of 30 °C has been detected at 99.5 km.

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A 100-km BOFDA Assisted by First-Order Bi-Directional Raman Amplification

Kapa, Thomas / Schreier, Andy / Krebber, Katerina

We present, to our knowledge for the first time, a 100-km Brillouin Optical Frequency-Domain Analysis (BOFDA) employing a 200-km fiber loop. Compared to our previous publication, enhanced sensor length, sensor accuracy and spatial resolution are presented. The performance improvements are achieved by applying distributed Raman amplification (DRA) and a digital high-pass filter. We report on temperature measurements over sensing distances of 75 km and 100 km both with a 12.5-m spatial resolution. Temperature changes of 5 °C have been measured along 75 km sensing fiber. A temperature change of 30 °C has been detected at 99.5 km.

A 100-km BOFDA Assisted by First-Order Bi-Directional Raman Amplification

Kapa, Thomas / Schreier, Andy / Krebber, Katerina

We present, to our knowledge for the first time, a 100-km Brillouin Optical Frequency-Domain Analysis (BOFDA) employing a 200-km fiber loop. Compared to our previous publication, enhanced sensor length, sensor accuracy and spatial resolution are presented. The performance improvements are achieved by applying distributed Raman amplification (DRA) and a digital high-pass filter. We report on temperature measurements over sensing distances of 75 km and 100 km both with a 12.5-m spatial resolution. Temperature changes of 5 °C have been measured along 75 km sensing fiber. A temperature change of 30 °C has been detected at 99.5 km.

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Title:

A 100-km BOFDA Assisted by First-Order Bi-Directional Raman Amplification

Contributors:

Kapa, Thomas (author) / Schreier, Andy (author) / Krebber, Katerina (author)

Publication date:

2019-01-01

DOI:

https://doi.org/10.3390/s19071527

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Classification:

DDC: 624

Licence:

https://creativecommons.org/licenses/by/4.0/deed.de

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