Two-wave-plate compensator method for full-field retardation measurements | Zendy

Carole C. Montarou | Zendy; Thomas K. Gaylord | Zendy; Brent L. Bachim | Zendy; Alexei I. Dachevski | Zendy; Abhiruchi Agarwal | Zendy

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Two-wave-plate compensator method for full-field retardation measurements

Author(s) -

Carole C. Montarou,

Thomas K. Gaylord,

Brent L. Bachim,

Alexei I. Dachevski,

Abhiruchi Agarwal

Publication year - 2006

Publication title -

applied optics

Language(s) - English

Resource type - Journals

ISSN - 0003-6935

DOI - 10.1364/ao.45.000271

Subject(s) - polarizer , optics , materials science , polarization (electrochemistry) , image resolution , microscope , waveplate , pixel , spatial frequency , birefringence , physics , laser , chemistry

The two-wave-plate compensator (TWC) method is expanded for full-field retardation measurements by use of a polarization microscope. The sample image is projected onto a CCD camera connected to a computer, allowing the retardation to be measured at all pixels. The retardation accuracy of this implementation of the TWC is evaluated to be 0.06 nm. The method is applied to polarization-maintaining fibers and long-period fiber gratings. The measured retardation is in good agreement with the crossed-polarizer images of the fibers. The method achieves a spatial resolution of 0.45 microm and a retardation resolution of 0.07 nm. The full-field TWC method can thus be a useful tool for characterizing and monitoring the fabrication of optical devices.

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