In this paper, the accuracy of the transverse interference method has been raised up by fully correcting a probing ray refraction due to the index gradient of the fiber. A simulation shows that the error is in principle within 0.3% of the index difference between the core center and the cladding. The index profiles of some fibers were practically measured and it was confirmed that this method can be used for a precise, nondestructive, and fast measurement
The application of phase imaging to refractive index profiling of an optical fiber slice is describe...
A method to extract quantitative phase data from\ud differential interference contrast (DIC) microsc...
We introduce a new fiber-optical approach for reflection based refractive index mapping. Our approac...
A set of successive approximation formulas for calculating the refractive index profile of optical f...
The accuracy of the formulas for calculating the refractive index profile from its tansverse interfe...
A nondestructive refractive-index profile measurement of optical-fiber preform rods by means of a tr...
This thesis is concerned with the theoretical and experimental development of a new technique for th...
A simple and rapid method is described for determining the refractive index profile of an optical fi...
The performance of optical transmission systems is strongly dependent on the details of the fibre re...
A nondestructive technique based on spatial filtering is presented for measuring the refractive-inde...
Here we demonstrate the use of differential interference contrast microscopy with the inverse Abel t...
Optical fibers are extensively used in modern technology such as sensing, short-distance and long-di...
The refractive index distribution in the core-cladding region of an optical fiber plays an important...
The Pluta polarizing interference microscope is used to measure the refractive index profile and mat...
SIGLEAvailable from British Library Document Supply Centre- DSC:D44797/83 / BLDSC - British Library ...
The application of phase imaging to refractive index profiling of an optical fiber slice is describe...
A method to extract quantitative phase data from\ud differential interference contrast (DIC) microsc...
We introduce a new fiber-optical approach for reflection based refractive index mapping. Our approac...
A set of successive approximation formulas for calculating the refractive index profile of optical f...
The accuracy of the formulas for calculating the refractive index profile from its tansverse interfe...
A nondestructive refractive-index profile measurement of optical-fiber preform rods by means of a tr...
This thesis is concerned with the theoretical and experimental development of a new technique for th...
A simple and rapid method is described for determining the refractive index profile of an optical fi...
The performance of optical transmission systems is strongly dependent on the details of the fibre re...
A nondestructive technique based on spatial filtering is presented for measuring the refractive-inde...
Here we demonstrate the use of differential interference contrast microscopy with the inverse Abel t...
Optical fibers are extensively used in modern technology such as sensing, short-distance and long-di...
The refractive index distribution in the core-cladding region of an optical fiber plays an important...
The Pluta polarizing interference microscope is used to measure the refractive index profile and mat...
SIGLEAvailable from British Library Document Supply Centre- DSC:D44797/83 / BLDSC - British Library ...
The application of phase imaging to refractive index profiling of an optical fiber slice is describe...
A method to extract quantitative phase data from\ud differential interference contrast (DIC) microsc...
We introduce a new fiber-optical approach for reflection based refractive index mapping. Our approac...