B. G. Gorshkov scite author profile

A novel configuration of a phase-sensitive optical time-domain reflectometer (OTDR) utilizing dual-pulse phase modulations of the probe signal is presented and experimentally demonstrated. The proposed modulation method enables one to perform the demodulation and reconstruction of an external perturbation signal which impacts the fiber using the phase diversity technique. The proposed phase-sensitive OTDR has some advantages in comparison with conventional solutions, which are discussed. The feasibility of a double pulse OTDR with phase modulation is demonstrated and theoretically proved.

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Multiplex biosensing with highly sensitive magnetic nanoparticle quantification method

Nikitin

Орлов

Znoyko

et al. 2018

Journal of Magnetism and Magnetic Materials

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A phase-sensitive optical time-domain reflectometer with dual-pulse diverse frequency probe signal

Alekseev

Vdovenko²,

Gorshkov

et al. 2015

Laser Phys.

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In the present communication we propose a novel approach to the realization of a phase sensitive optical time-domain reflectometer (OTDR) which is capable of a precise reconstruction of the phase signal which impacts the arbitrary point of a fiber-optic line. The method uses a dual-pulse probe signal with diverse carrier optical frequency within each half of the double pulse. The quasi-periodic intensity pattern which emerges as a result of double frequency backscattered signal interference contains the information of the external action over the fiber. The phase signal is extracted with the aid of an I/Q quadrature demodulation scheme, realized at the receiving side of the OTDR. The feasibility and limitations of the proposed scheme are theoretically proved and experimentally demonstrated.

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Scientific Applications of Distributed Acoustic Sensing: State-of-the-Art Review and Perspective

Gorshkov

Yüksel

Fotiadi

et al. 2022

Sensors

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This work presents a detailed review of the development of distributed acoustic sensors (DAS) and their newest scientific applications. It covers most areas of human activities, such as the engineering, material, and humanitarian sciences, geophysics, culture, biology, and applied mechanics. It also provides the theoretical basis for most well-known DAS techniques and unveils the features that characterize each particular group of applications. After providing a summary of research achievements, the paper develops an initial perspective of the future work and determines the most promising DAS technologies that should be improved.

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Picoscope, a new label-free biosensor

Никитин¹,

Gorshkov²,

Nikitin

et al. 2005

Sensors and Actuators B: Chemical

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B. G. Gorshkov

A phase-sensitive optical time-domain reflectometer with dual-pulse phase modulated probe signal

Multiplex biosensing with highly sensitive magnetic nanoparticle quantification method

A phase-sensitive optical time-domain reflectometer with dual-pulse diverse frequency probe signal

Scientific Applications of Distributed Acoustic Sensing: State-of-the-Art Review and Perspective

Picoscope, a new label-free biosensor

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