Characterization of Brillouin Scattering Spectrum in LEAF Fiber

Liu, Xuan

06 December 2011

Fiber optic sensors are designed to measure various parameters. The distributed fiber optics sensor has been a very promising candidate for the structural health monitoring. In this thesis, we characterized LEAF (Large Effective Area Fiber) fiber’s Brillouin scattering spectrum and investigated its potentiality for the distributed Brillouin temperature and strain sensor. Optical fibers with complex refractive index profiles are applied to improve the Brillouin threshold by varying the Brillouin linewidth. As LEAF fiber has a modified refractive index profile, we investigated its Brillouin linewidth’s dependence on the square of the pump light’s frequency. We verified the Brillouin frequency’s variation with input SOP experimentally for LEAF fiber in the spontaneous regime. This sets a limitation for the frequency resolution of distributed Brillouin sensors. We also realized a simultaneous temperature and strain sensor with LEAF fiber applying the Brillouin optical time domain analysis. Based on the direct detection of LEAF beat frequencies, a simultaneous strain and temperature sensor was demonstrated.

Fiber optics

Distributed Brillouin Sensor

LEAF fiber

Temperature

Strain

Characterization of Brillouin Scattering Spectrum in LEAF Fiber

Liu, Xuan

06 December 2011

Fiber optic sensors are designed to measure various parameters. The distributed fiber optics sensor has been a very promising candidate for the structural health monitoring. In this thesis, we characterized LEAF (Large Effective Area Fiber) fiber’s Brillouin scattering spectrum and investigated its potentiality for the distributed Brillouin temperature and strain sensor. Optical fibers with complex refractive index profiles are applied to improve the Brillouin threshold by varying the Brillouin linewidth. As LEAF fiber has a modified refractive index profile, we investigated its Brillouin linewidth’s dependence on the square of the pump light’s frequency. We verified the Brillouin frequency’s variation with input SOP experimentally for LEAF fiber in the spontaneous regime. This sets a limitation for the frequency resolution of distributed Brillouin sensors. We also realized a simultaneous temperature and strain sensor with LEAF fiber applying the Brillouin optical time domain analysis. Based on the direct detection of LEAF beat frequencies, a simultaneous strain and temperature sensor was demonstrated.

Fiber optics

Distributed Brillouin Sensor

LEAF fiber

Temperature

Strain

Characterization of Brillouin Scattering Spectrum in LEAF Fiber

Liu, Xuan

06 December 2011

Fiber optic sensors are designed to measure various parameters. The distributed fiber optics sensor has been a very promising candidate for the structural health monitoring. In this thesis, we characterized LEAF (Large Effective Area Fiber) fiber’s Brillouin scattering spectrum and investigated its potentiality for the distributed Brillouin temperature and strain sensor. Optical fibers with complex refractive index profiles are applied to improve the Brillouin threshold by varying the Brillouin linewidth. As LEAF fiber has a modified refractive index profile, we investigated its Brillouin linewidth’s dependence on the square of the pump light’s frequency. We verified the Brillouin frequency’s variation with input SOP experimentally for LEAF fiber in the spontaneous regime. This sets a limitation for the frequency resolution of distributed Brillouin sensors. We also realized a simultaneous temperature and strain sensor with LEAF fiber applying the Brillouin optical time domain analysis. Based on the direct detection of LEAF beat frequencies, a simultaneous strain and temperature sensor was demonstrated.

Fiber optics

Distributed Brillouin Sensor

LEAF fiber

Temperature

Strain

Characterization of Brillouin Scattering Spectrum in LEAF Fiber

Liu, Xuan

January 2011

Fiber optic sensors are designed to measure various parameters. The distributed fiber optics sensor has been a very promising candidate for the structural health monitoring. In this thesis, we characterized LEAF (Large Effective Area Fiber) fiber’s Brillouin scattering spectrum and investigated its potentiality for the distributed Brillouin temperature and strain sensor. Optical fibers with complex refractive index profiles are applied to improve the Brillouin threshold by varying the Brillouin linewidth. As LEAF fiber has a modified refractive index profile, we investigated its Brillouin linewidth’s dependence on the square of the pump light’s frequency. We verified the Brillouin frequency’s variation with input SOP experimentally for LEAF fiber in the spontaneous regime. This sets a limitation for the frequency resolution of distributed Brillouin sensors. We also realized a simultaneous temperature and strain sensor with LEAF fiber applying the Brillouin optical time domain analysis. Based on the direct detection of LEAF beat frequencies, a simultaneous strain and temperature sensor was demonstrated.

Fiber optics

Distributed Brillouin Sensor

LEAF fiber

Temperature

Strain

Método de interrogação de fibra óptica para detecção de intrusão / Optic fiber interrogation method for intrusion detection

Febbo, Maurino de

24 June 2016

Neste trabalho é proposto um método de interrogação de fibra óptica com arquitetura reduzida, que pode ser empregado em sistemas distribuídos de detecção de intrusão de médias e longas distâncias, como para proteção de perímetros, divisas, faixa de dutos, plantas industriais, ou outras instalações, usando uma fibra óptica comum como elemento sensor. O método é baseado na técnica Brillouin Optical Time Domain Analysis (BOTDA), porém dispensando-se a varredura sequencial com diferentes frequências, o que simplifica o sistema, reduz custos e melhora o tempo de resposta. O trabalho consiste de uma abordagem geral sobre o tema, sendo apresentada a teoria básica dos fenômenos de espalhamento não linear em fibras ópticas, o detalhamento do método de interrogação proposto e a descrição dos experimentos realizados em laboratório, seguida de uma analise e comentários quanto ao desempenho alcançado, bem como de algumas de sugestões para melhor explorar o potencial do método. / In this research work is proposed an optic fiber interrogation method with reduced architecture, that can be applied in distributed intrusion detection systems of medium and long distances, such as for the protection of pipeline\'s right of way, perimeters, boundaries, industrial plants or others installations, using a standard optic fiber as a sensor. The proposed method is based on a Brillouin Time Domain Analysis (BOTDA), however dispensing the sequential frequency sweeping, what simplifies the system, reduce its costs and improve the response time. The work comprehends a general discussion of the subject, being presented the basic theory of the nonlinear scattering phenomena in optic fibers, the description of the proposed interrogation method and the conducted in lab experiments, followed by an analysis and comments on the achieved performance, as well as a few suggestions to better explore the potential of the method.

BOTDA

BOTDA

Brillouin sensor

Detecção de intrusão

Distributed sensing

Intrusion detection

Sensor Brillouin

Sensor distribuído

Método de interrogação de fibra óptica para detecção de intrusão / Optic fiber interrogation method for intrusion detection

Maurino de Febbo

24 June 2016

Neste trabalho é proposto um método de interrogação de fibra óptica com arquitetura reduzida, que pode ser empregado em sistemas distribuídos de detecção de intrusão de médias e longas distâncias, como para proteção de perímetros, divisas, faixa de dutos, plantas industriais, ou outras instalações, usando uma fibra óptica comum como elemento sensor. O método é baseado na técnica Brillouin Optical Time Domain Analysis (BOTDA), porém dispensando-se a varredura sequencial com diferentes frequências, o que simplifica o sistema, reduz custos e melhora o tempo de resposta. O trabalho consiste de uma abordagem geral sobre o tema, sendo apresentada a teoria básica dos fenômenos de espalhamento não linear em fibras ópticas, o detalhamento do método de interrogação proposto e a descrição dos experimentos realizados em laboratório, seguida de uma analise e comentários quanto ao desempenho alcançado, bem como de algumas de sugestões para melhor explorar o potencial do método. / In this research work is proposed an optic fiber interrogation method with reduced architecture, that can be applied in distributed intrusion detection systems of medium and long distances, such as for the protection of pipeline\'s right of way, perimeters, boundaries, industrial plants or others installations, using a standard optic fiber as a sensor. The proposed method is based on a Brillouin Time Domain Analysis (BOTDA), however dispensing the sequential frequency sweeping, what simplifies the system, reduce its costs and improve the response time. The work comprehends a general discussion of the subject, being presented the basic theory of the nonlinear scattering phenomena in optic fibers, the description of the proposed interrogation method and the conducted in lab experiments, followed by an analysis and comments on the achieved performance, as well as a few suggestions to better explore the potential of the method.

BOTDA

Detecção de intrusão

Sensor Brillouin

Sensor distribuído

BOTDA

Brillouin sensor

Distributed sensing

Intrusion detection