Title :
Impurity-doped fiber-optic shock position sensor
Author :
Weiss, Jonathan D.
Author_Institution :
Optoelectron. Characterization and Sensor Dev. Dept., Sandia Nat. Labs., Albuquerque, NM, USA
fDate :
10/1/1994 12:00:00 AM
Abstract :
We have demonstrated the operation of a fiber-optic device originally proposed to continuously measure the location of a shock front, but which also has potential for use as a crack location sensor. It consists of one or a group of fibers uniformly doped along their length with neodymium, which fluoresces at about 1060 nm in response to being optically pumped at a shorter wavelength. In our case, the pump source was a laser diode emitting at 810 nm. As the length of the fiber is reduced, the strength of the fluorescence signal diminishes along with the number of fluorescing atoms. Laboratory and explosives experiments were performed on sensor fibers containing various concentrations of dopants. We also investigated the benefits, in an explosives application, of adding phosphorus to narrow the fluorescence line
Keywords :
crack detection; explosions; fibre optic sensors; fluorescence; luminescence of inorganic solids; neodymium; optical pumping; phosphorus; position measurement; shock measurement; 1060 nm; 810 nm; continuously measure; crack location sensor; explosives experiments; fiber length reduction; fiber-optic device; fluorescence line; fluorescence signal; fluoresces; fluorescing atoms; impurity-doped fiber-optic shock position sensor; laser diode; neodymium; optically pumped; phosphorus; pump source; sensor fibers; shock front location measurement; uniformly doped; Atom optics; Electric shock; Explosives; Fluorescence; Neodymium; Optical fiber devices; Optical fiber sensors; Optical pumping; Stimulated emission; Wavelength measurement;
Journal_Title :
Lightwave Technology, Journal of
