Title :
Novel and improved methods of writing Bragg gratings with phase masks
Author :
Othonos, Andreas ; Lee, Xavier
Author_Institution :
The Ontario Laser & Lightwave Res. Centre, Toronto Univ., Ont., Canada
Abstract :
The authors demonstrate the importance of spatial coherence of the writing beam for inscribing Bragg gratings with a phase mask. Bragg gratings were written using a normal excimer laser with the fiber placed at various distances away from the phase mask. This was repeated with an excimer laser that was modified to improve the beam spatial coherence showing dramatic improvement in the ability to inscribe gratings. Tunability of the inscribed Bragg grating wavelength, utilizing a single phase mask in conjunction with the improved spatial coherence of the excitation source, is demonstrated.<>
Keywords :
diffraction gratings; excimer lasers; laser beam applications; light coherence; optical fibre fabrication; phase shifting masks; Bragg grating writing; beam spatial coherence; dramatic improvement; excimer laser; excitation source; inscribed Bragg grating wavelength; inscribing Bragg gratings; optical fibre gratings; phase masks; single phase mask; spatial coherence; tunability; writing beam; Bragg gratings; Fiber gratings; Fiber lasers; Interference; Laser beams; Optical fibers; Phase modulation; Spatial coherence; Ultraviolet sources; Writing;
Journal_Title :
Photonics Technology Letters, IEEE
