Optical waveguides – With optical coupler – Plural
Patent
1990-11-06
1992-11-24
Gonzalez, Frank
Optical waveguides
With optical coupler
Plural
385 25, G02B 628
Patent
active
051669927
DESCRIPTION:
BRIEF SUMMARY
FIELD OF THE INVENTION
This invention relates to a wavelength selective optical waveguide coupler and particularly but not exclusively to a coupler formed from optical fibres having D-shaped cross-sections.
BACKGROUND OF THE INVENTION
It is known to form a wavelength selective optical waveguide coupler by locating a pair of optical waveguides adjacent each other so as to provide a set of regularly spaced apart optical coupling regions with the optical path length between the coupling regions being greater in one waveguide than the other, which optical path lengths are a function of wavelengths of the light propagating in the waveguide. Light propagating in one waveguide will couple varying amounts of light into or out of the other waveguide at each coupling region dependent on the relative phase relationship of the light in the two waveguides. The aggregate effect for light propagating through the coupling regions will be additive only for a wavelength in which the optical path difference between coupling regions is such as to cause a relative phase shift of an integral number of 2.pi. radians along the length of the waveguide between the each coupling region. Such a coupler will couple substantially all light of a preselected wavelength from one waveguide into another whilst leaving the other wavelengths substantially unaffected. Examples of such couplers are disclosed in Patent Application No. GB2152694A.
One of the couplers there discussed comprises first and second slab waveguides constructed in a semiconductor substrate. The distance between the first and second waveguides is varied periodically so as to provide the set of regularly spaced optical coupling regions.
The waveguides are formed in a semiconductor substrate. The position of the first waveguide relative to the other cannot be altered so it not only involves relatively complex manufacturing techniques it is also not tunable.
Another of the couplers there disclosed comprises two optical fibre waveguides. The fibres are wound in opposite senses on respective mandrels of slightly different radii for several turns. The path length of a turn is therefore different for each fibre. Optical coupling regions are formed when the turns of each optical fibre are brought together (after reducing the cladding width if necessary). The turns of each of the fibres when brought together, meet at tangents. Coupling occurs at these tangents, and tuning may be achieved by stretching the fibres on one mandrel by increasing the radius of that mandrel.
A disadvantage of this second known type of coupler is that due to the long path length around the mandrels, accidental path differences due to temperature fluctuations for example are difficult to eliminate, and fractional control of the radius of each mandrel must be achieved to a high level of accuracy in order to accurately tune the coupler to selectively couple the desired wavelength.
SUMMARY OF THE INVENTION
According to the present invention there is provided a wavelength selective optical waveguide coupler comprising a first optical waveguide in the form of an undulatory optical fibre located adjacent to a second optical waveguide to define a set of regularly spaced optical coupling regions.
The undulatory nature of the first waveguide results in the distance between the first and second waveguides varying periodically along the length of the coupler. Thus the invention provides a simple means of obtaining a set of regularly and accurately spaced optical coupling regions that is relatively temperature insensitive.
The path difference between the coupling regions can be set accurately on the order of 1 .mu.m by relatively coarse macroscopic adjustment of the fibres.
Preferably, each of the optical fibre and second optical waveguide comprises a single mode optical fibre having a cross-section which has a linear portion in each coupling region. Thus the respective linear portions of the first and second waveguides will form substantially planar surfaces lying in substantially parallel planes in the coupli
REFERENCES:
patent: 4479701 (1984-10-01), Newton et al.
patent: 4586783 (1986-05-01), Campbell et al.
patent: 4589725 (1986-05-01), Dyott
patent: 4669816 (1987-06-01), Thompson
patent: 4673270 (1987-06-01), Gordon
patent: 4749249 (1988-06-01), Hockaday et al.
patent: 4832437 (1989-05-01), Kim et al.
patent: 4869570 (1989-09-01), Yokohama et al.
patent: 4883335 (1989-11-01), Alferness et al.
Patent Abstracts of Japan, No. 58-95701, (Jun. 7, 1983) vol. 7, No. 196, Aug. 26, 1983, (P-219) (1341), "Optical Switch".
Cassidy Stephen A.
Yennadhiou Peter
British Telecommunications public limited company
Gonzalez Frank
LandOfFree
Wavelength selective optical waveguide coupler does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Wavelength selective optical waveguide coupler, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Wavelength selective optical waveguide coupler will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-928710