Optical waveguides – With optical coupler – Input/output coupler
Reexamination Certificate
2001-06-25
2003-03-04
Healy, Brian (Department: 2874)
Optical waveguides
With optical coupler
Input/output coupler
C385S028000, C385S031000, C385S035000, C385S124000, C385S126000
Reexamination Certificate
active
06529661
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to an optical fiber for optically coupling a light radiation source to a multimode optical waveguide, and a method for manufacturing it, which can be used in particular with light-emitting optoelectronic components.
In light-emitting optoelectronic components, laser diodes are increasingly being used as light radiation sources. Such lasers radiate coherent light with a high light intensity. With light with such a high light intensity there is the risk that when the emitted laser light strikes the retina of an eye it could lead to damage to the retina. For this reason, optoelectronic components which include laser light sources have to comply with certain safety standards. For a prescribed maximum light intensity, the irradiation angle must be widened in order to avoid damage to the retina.
The light emitted by the laser light source must be injected into an optical fiber for light transmission in a large number of applications. When this occurs, the largest possible proportion of the light irradiated by the laser light source should be coupled into the optical fiber core.
FIG. 1
shows the relationship between the light intensity I and the irradiation angle &agr; of the laser light source. The maximum light intensity I
max
irradiated by the laser light source is prescribed by the safety standards. The maximum usable irradiation angle &agr;
max
is defined by the optical elements used, in particular by the acceptance angle of the optical fiber. A typical laser diode, for example a VCSEL laser diode, has a relatively small irradiation angle.
FIG. 1
also shows the ideal profile for the injection of irradiated light into the multimode optical waveguide. This ideal profile is defined by the maximum light intensity and the maximum usable irradiation angle &agr;
max
. In order to achieve good optical coupling between the light radiation source and the multimode optical waveguide, and on the other hand comply with the safety standards, there is therefore a need for an optical coupling array for adapting the light source to the multimode optical waveguide.
When there is direct optical coupling to a multimode optical waveguide, only partial illumination of the optical fiber core of the multimode optical waveguide is achieved. The reason for this is the relatively low mode excitation owing to the small radiation aperture of the VCSEL laser diode. When there is direct coupling to a laser light source, for example a VCSEL laser diode, without a coupling array or imaging system on a multimode optical waveguide with a graded index profile, such as is used for example for data transmission, only the modes of the lowest order are excited in the multimode optical waveguide.
Multimode optical waveguides can have a graded index profile or a stepped index profile. In contrast to multimode optical waveguides, in the case of single mode optical fibers a plurality of discrete light waves are not transmitted, but rather just one light wave with a large bandwidth. For single mode optical waveguides, it is known to perform injection by forming a lens on the end face of the single mode optical waveguide. When there is direct injection of the light emitted by the light source into the single mode optical waveguide, the portion of the light injected into the optical waveguide is increased by forming the end face of the single mode waveguide as a lens shape.
In order to increase the optical irradiation angle of the injected light in multimode optical waveguides, an optical coupling array has been proposed in which the light radiation source and the injection end face of the multimode optical waveguide are arranged with respect to one anther in such a way that the injected lightbeams extend inclined at an angle with respect to the geometric axis of the optical waveguide. However, such an optical coupling array causes the irradiation angle to be widened only if the multimode optical waveguide is a waveguide with a stepped index profile.
In contrast, short graded index waveguides have the same properties as a GRIN (graded index) lens, i.e. an injection end face which extends obliquely with respect to the lightbeams changes the angle of the radiation in the optical waveguide, but only in one direction. As a result of the imaging properties of the graded index optical waveguide, the change in angle is retained during the transmission by the optical waveguide and then emerges squinting in accordance with the angle of inclination of the injection end face. The irradiation angle is not widened here.
The object of the present invention is therefore to provide an optical fiber for optically coupling a light radiation source to a multimode optical waveguide, and a method for manufacturing it, in which optical fiber a large proportion of the light energy irradiated by the laser light source is injected into the optical waveguide and at the same time the laser safety standards are complied with.
This object is achieved according to the invention by means of an optical fiber having the features specified in patent claim
1
.
The invention provides an optical fiber for optically coupling a light radiation source to a multimode optical waveguide having:
an optical fiber core for transmitting light waves,
optical fiber cladding enclosing the optical fiber core,
an injection end face of the optical fiber core for injecting light emitted by the light radiation source into the optical fiber core,
an extraction end face of the optical fiber core for extracting light from the optical fiber core into the multimode optical waveguide,
the injection end face of the optical fiber core being curved spherically inward in order to widen the radiation angle of the injected light.
SUMMARY OF THE INVENTION
In a preferred embodiment of the optical fiber according to the invention, the injection end face of the optical fiber core is curved concavely inward.
The optical fiber core is preferably a multimode optical waveguide with a graded index profile.
The extraction end face of the optical fiber core is preferably planar.
In a preferred embodiment, the concave injection end face is rotationally symmetrical with respect to the longitudinal axis of the optical fiber core.
In a further embodiment of the optical fiber according to the invention, the concave injection end face is rotationally symmetrical with respect to an axis which extends at an angle of inclination with respect to the longitudinal axis of the optical fiber core.
The angle of inclination here is preferably 45°.
The injection end face preferably has a mirrored layer for reflecting light.
As a result, it is possible to inject the light at 90° with respect to the longitudinal axis of the optical fiber core.
The invention also provides an optoelectronic light transmitter component for multimode optical waveguides having at least one optical light radiation source for generating light, and
an associated optical fiber for optically coupling the optical light radiation source to the multimode optical waveguide,
the optical fiber having an optical fiber core with an injection end face which faces the light radiation source and has the purpose of injecting the generated light into the optical fiber core,
and the injection end face of the optical fiber core being curved spherically inward in order to widen the radiation angle of the injected light.
In a preferred embodiment, the injection end face of the optical fiber core is curved concavely inward in order to widen the radiation of the injected light.
The optical light radiation source is preferably a laser light source.
The laser light source is preferably a laser diode.
In a particularly preferred embodiment, the laser diode is a VCSEL laser diode.
In one particularly preferred embodiment, the optical fiber core has a diameter of 62.5 &mgr;m.
The numerical aperture of the optical fiber core is preferably 0.275.
In a preferred embodiment, the injection end face has a concave curvature with a central radius of 0.3 mm.
The invention also provides a method for manufacturing an optical
Healy Brian
Infineon - Technologies AG
Petkovsek Daniel
LandOfFree
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