Title :
Direct measurement of propagation constant in optical waveguides by heterodyne scattering detection (HSD) method
Author :
Kokubun, Y. ; Kai, Yutaka ; Johkawa, H.
Author_Institution :
Div. of Electr. & Comput. Eng., Yokohama Nat. Univ., Japan
Abstract :
A new measurement method for the propagation constant of optical waveguides, which can measure the phase difference of two distant points nondestructively, was proposed and demonstrated. A super-fine fiber probe for the photon STM is used to pick up the scattered light from an optical waveguide, and the collected light is detected using a heterodyne technique. The phase difference between two points is measured from the phase change of the electrical signal of heterodyne detection as the fiber probe traces the waveguide pattern. The phase difference between 100 μm distant points in a three-dimensional ARROW was successfully measured and the error was evaluated to be 0.25% by comparison with the theoretical value.
Keywords :
demodulation; integrated optics; light scattering; optical microscopy; optical modulation; optical testing; optical waveguides; collected light detection; distant points; electrical signal; error measurement; fiber probe traces; heterodyne scattering detection method; heterodyne technique; nondestructively; optical waveguides; phase difference; photon STM; propagation constant; scattered light; super-fine fiber probe; three-dimensional ARROW; waveguide pattern; Electric variables measurement; Light scattering; Optical mixing; Optical scattering; Optical waveguides; Particle scattering; Phase measurement; Probes; Propagation constant; Signal detection;
Journal_Title :
Photonics Technology Letters, IEEE
