Add to ORKGWe describe a novel distributed fiber optic sensor, which is able to map both strength and orientation of intense static magnetic fields in the area spanned by the fiber. The sensor is based on Faraday rotation and on polarization analysis of the field backscattered by the fiber due to Rayleigh scattering. The small Verdet constant of standard silica fibers makes the proposed technique most suited to intense magnetic fields
Optical fiber sensors offer unprecedented features, the most unique of which is the ability of monit...
The fabrication and characterization of a distributed magnetic field optical fiber sensor based on m...
We report on the design and implementation of a novel optical fiber system for dual point measuremen...
We describe a novel distributed fiber optic sensor, which is able to map both strength and orientati...
We describe a distributed fiber optic technique which is able to measure strength and orientation of...
A novel, distributed fiber optic sensor for the vector characterization of static magnetic fields i...
A novel method to perform 3D vector measurement of intense and static magnetic fields is presented. ...
A distributed optical fiber sensor is introduced which is capable of quantifying multiple magnetic f...
This paper presents an investigation of magnetostrictive material-in-clad optical fibers for distrib...
A new technique to distributedly monitor intense current along high energy electric cables is presen...
Over the past two decades, distributed optical fibre sensors (DOFS) based on Brillouin and Raman sca...
Some 175 years ago Michael Faraday discovered magnetic circular birefringence, now commonly known as...
We report on the simulation and characterisation of compound phase-shifted fiber Bragg structures fo...
We combine a camera, an optical fiber, and artificial intelligence into a single optical magnetomete...
This Thesis is brought to you for free and open access by BYU ScholarsArchive. It has been accepted ...
Optical fiber sensors offer unprecedented features, the most unique of which is the ability of monit...
The fabrication and characterization of a distributed magnetic field optical fiber sensor based on m...
We report on the design and implementation of a novel optical fiber system for dual point measuremen...
We describe a novel distributed fiber optic sensor, which is able to map both strength and orientati...
We describe a distributed fiber optic technique which is able to measure strength and orientation of...
A novel, distributed fiber optic sensor for the vector characterization of static magnetic fields i...
A novel method to perform 3D vector measurement of intense and static magnetic fields is presented. ...
A distributed optical fiber sensor is introduced which is capable of quantifying multiple magnetic f...
This paper presents an investigation of magnetostrictive material-in-clad optical fibers for distrib...
A new technique to distributedly monitor intense current along high energy electric cables is presen...
Over the past two decades, distributed optical fibre sensors (DOFS) based on Brillouin and Raman sca...
Some 175 years ago Michael Faraday discovered magnetic circular birefringence, now commonly known as...
We report on the simulation and characterisation of compound phase-shifted fiber Bragg structures fo...
We combine a camera, an optical fiber, and artificial intelligence into a single optical magnetomete...
This Thesis is brought to you for free and open access by BYU ScholarsArchive. It has been accepted ...
Optical fiber sensors offer unprecedented features, the most unique of which is the ability of monit...
The fabrication and characterization of a distributed magnetic field optical fiber sensor based on m...
We report on the design and implementation of a novel optical fiber system for dual point measuremen...