Semiconductor light emitting element coupled with optical fiber

Details Semiconductor light emitting element coupled with optical fiber Semiconductor light emitting element coupled with optical fiber

2001-12-20

2002-11-19

Spyrou, Cassandra (Department: 2872)

Optical waveguides

With optical coupler

Particular coupling structure

C385S052000, C385S088000, C385S043000, C385S050000

Reexamination Certificate

active

06483968

ABSTRACT:

BACKGROUND ART INFORMATION
1. Technical Field
The present invention relates to a semiconductor light emitting element coupled with optical fiber in which emission of a semiconductor element is outputted from an optical fiber.
2. Background Art
In optically coupling an edge emitting type semiconductor laser and an optical fiber for instance, optical means such as lens are used in general. The optical means such as lenses or the like can converge a diameter of a broad output beam of a semiconductor laser to a narrow one to enable to enter in the optical fiber with ease. As the result of this, a coupling loss between the semiconductor laser and the optical fiber can be suppressed.
However, in optically coupling a semiconductor laser and an optical fiber by use of optical means such as lens or the like, a plurality of lenses are required to be aligned with extremely high precision. Accordingly, an alignment takes a long time to result in increasing manufacturing costs.
As the means for annulling complication of the alignment, a method in which an emitting element and a light-propagating medium are directly coupled is disclosed in Japanese-Patent Laid-open Publication No. HEI 5-134151. According to the above, a semiconductor laser and an optical waveguide are directly coupled to make unnecessary the complicated alignment, resulting in cost reduction.
In the disclosure of the aforementioned reference, however, the semiconductor laser and the optical waveguide are disposed in an intimate contact with each other on the same substrate. As the result of this, the optical waveguide dilates due to the heat of the semiconductor laser to cause the semiconductor laser and the optical waveguide to become off-axis, resulting in the likelihood of lowering light output.
Thus, in the existing semiconductor light emitting element coupled with optical fiber, temperature variation may cause a fluctuation of light output. In the case of a semiconductor laser of high output power being broad in an active layer in particular, close attention must be paid on the fluctuation of the light output.
SUMMARY OF THE INVENTION
The object of the present invention is to provide an semiconductor light emitting element coupled with optical fiber of which variation of light output is small even if there is a temperature variation and that operates with stability.
In order to achieve the above object, the present semiconductor light emitting element coupled with optical fiber is constituted in the following ways.
(1) A semiconductor light emitting element coupled with optical fiber comprises a substrate, an optical waveguide, a semiconductor light emitting element, and an optical fiber possessing a core of which end faces the other end of the core of the optical waveguide. The optical waveguide is disposed on the substrate and includes a core and a cladding layer covering the core. The semiconductor light emitting element is disposed on the substrate and possesses an outputting end-surface facing one end of a core of the optical waveguide. Here, the cladding layer sandwiches both side surfaces of the semiconductor light emitting element.
The cladding layer of the optical waveguide sandwiches both side-surfaces of the semiconductor light emitting element, thereby the semiconductor light emitting element being directly coupled to the optical waveguide. The semiconductor light emitting element being disposed on the substrate, in the neighborhood of an optical coupling (one end of the core of the optical waveguide) of the semiconductor light emitting element and the optical waveguide, the optical waveguide is not necessary to be solidly fixed onto the substrate. Accordingly, in the neighborhood of the optical coupling of the semiconductor light emitting element and the optical waveguide, between the optical waveguide and the substrate a gap can be formed.
As a result of this, even in the case where the optical waveguide is heated due to emission from the semiconductor light emitting element to result in dilation, in the neighborhood of the optical coupling with the semiconductor light emitting element, the optical waveguide is not pressed down on the substrate.
Accordingly, due to thermal expansion of the optical waveguide relative position between an output terminal of the semiconductor light emitting element and a core of the optical waveguide shifts less.
Further, the semiconductor light emitting element and the cladding layer of the optical waveguide being unnecessary to be connected, due to the dilation of the optical waveguide an optical coupling state fluctuates less.
As mentioned above, in the semiconductor light emitting element coupled with optical fiber involving the present invention, the temperature variation in the optical waveguide does not disturb a stable light output.
(2) A semiconductor light emitting element coupled with optical fiber comprises a substrate, an optical waveguide, a semiconductor light emitting element, and an optical fiber possessing a core of which end faces the other end of the core of the optical waveguide. The optical waveguide is disposed on the substrate and includes a core and a cladding layer covering the core. The semiconductor light emitting element is mounted on a base disposed on the substrate and possesses an output end-surface facing one end of a core of the optical waveguide. Here, the cladding layer sandwiches both side surfaces of the semiconductor light emitting element or the base.
The cladding layer of the optical waveguide sandwiches both side-surfaces of the semiconductor light emitting element or the base thereon the semiconductor light emitting element is mounted. Thereby, the semiconductor light emitting element and the optical waveguide are indirectly coupled. Accordingly, similarly with the case (1), a gap can be formed between the optical waveguide and the substrate, and the semiconductor light emitting element and the cladding layer of the optical waveguide are not required to adhere.
As a result of this, similarly with the case (1), in the semiconductor light emitting element coupled with optical fiber involving the present invention, the temperature variation does not disturb stable light output.
(3) A semiconductor light emitting element coupled with optical fiber comprises a substrate, an optical waveguide, a semiconductor light emitting element, and an optical fiber possessing a core of which an end faces the other end of the core of the optical waveguide. The optical waveguide is disposed on the substrate and includes a core and a cladding layer covering the core. The semiconductor light emitting element is mounted on a base disposed on the substrate and possesses an output end-surface facing one end of a core of the optical waveguide. Here, the cladding layer of the optical waveguide is solidly fixed on an upper surface of the base.
The cladding layer of the optical waveguide is solidly fixed on an upper surface of the base thereon the semiconductor light emitting element is mounted. Thereby, the semiconductor light emitting element and the optical waveguide are indirectly coupled. Accordingly, similarly with the case (1), a gap can be formed between the optical waveguide and the substrate, and the semiconductor light emitting element and the cladding layer of the optical waveguide are not required to adhere.
As a result of this, similarly with the case (1), in the semiconductor light emitting element coupled with optical fiber involving the present invention, even the temperature variation does not disturb stable light output.
(4) A semiconductor light emitting element coupled with optical fiber comprises a substrate, an optical waveguide, a semiconductor light emitting element, and an optical fiber possessing a core of which end faces the other end of the core of the optical waveguide. The optical waveguide is disposed on the substrate and includes a core and a cladding layer covering the core. The semiconductor light emitting element is disposed on the substrate and possesses an output end-surface facing one end of a core of the optical waveguide

Affiliated with

Also associated with

Rating

Semiconductor light emitting element coupled with optical fiber does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with Semiconductor light emitting element coupled with optical fiber, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Semiconductor light emitting element coupled with optical fiber will most certainly appreciate the feedback.

Rate now

Comments { 0 }

Profile ID: LFUS-PAI-O-2943836