Coherent light generators – Particular active media – Semiconductor
Reexamination Certificate
1998-09-01
2002-11-26
Ip, Paul (Department: 2828)
Coherent light generators
Particular active media
Semiconductor
C372S049010
Reexamination Certificate
active
06487226
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention includes to a semiconductor light emitting device and an optical recording and/or reproducing apparatus.
2. Description of the Related Art
Light may be amplified by stimulating the emission of radiation having discrete frequencies from incident electromagnetic radiation of mixed frequencies. In a light emitting device such as a semiconductor laser, especially in AlGaInP semiconductor lasers, it is difficult to make a sufficiently high barrier of heterojunction between the active layer and the cladding layer, impurity doping control technologies seriously affect the device characteristics.
More specifically, there are known AlGaInP semiconductor lasers using known cladding layers near the active layer by controlling the impurity doping position during the manufacturing process. Conventional AlGaInP semiconductor laser having non-doped cladding layers near the active layer are advantageous in preventing diffusion of impurities from the cladding layers.
These conventional AlGaInP semiconductor lasers, however, involve some problems. Namely, if the impurity doping position is remote from the active layer, then the efficiency of converting an injected current into light decreases, and the operation current increases. In contrast, if the impurity doping position is nearer to the active layer, diffusion of impurities reach the active layer by the annealing process and so on, and deteriorates the device in a short time as short as several hours. This results in shortening the life of the device and decreasing the reliability of the device.
Thus, the conventional AlGaInP semiconductor laser needs to control impurity doping with high accuracy, so there is difficulty in its manufacturing.
OBJECTS AND SUMMARY OF THE INVENTION
It is therefore an object of the invention to provide a semiconductor light emitting device which is improved in emission efficiency, operative with a low current, improved in reliability, and can be manufactured easily, and to provide an optical recording and/or reproducing apparatus using the semiconductor light emitting device as is light source.
According to the first aspect of the invention, there is provided a semiconductor light emitting device having a structure including an active layer between a p-type cladding layer and an n-type cladding layer on a base body, comprising:
at least one of the p-type cladding layer and the n-type cladding layer has a lattice mismatch relative to the base body not smaller than 2.0×10
−4
and not larger than 3.0×10
−3
or not smaller than −1.5×10
−3
and not larger than −2.0×10
−4
.
According to the second aspect of the invention, there is provided a semiconductor light emitting device having a structure including an active layer between a p-type cladding layer and an n-type cladding layer on a base body, comprising:
at least one of the p-type cladding layer and the n-type cladding layer, and the active layer have a lattice mismatch relative to the base body not smaller than 2.0×10
−4
and not larger than 3.0×10
−3
or not smaller than −1.5×10
−3
and not larger than −2.0×10
−4
.
According to the third aspect of the invention, there is provided a semiconductor light emitting device having a structure including an active layer between a p-type cladding layer and an n-type cladding layer on a base body, comprising:
the p-type cladding layer, n-type cladding layer and active layer are in lattice mismatch with the base body.
According to the fourth aspect of the intention, there is provided an optical recording and/or reproducing apparatus using as a light source thereof a semiconductor light emitting device having a structure including an active layer between a p-type cladding layer and an n-type cladding layer on a base body, comprising:
at least one of the p-type cladding layer and the n-type cladding layer has a lattice mismatch relative to the base body not smaller than 2.0×10
−4
and not larger than 3.0×10
−3
or not smaller than −1.5×10
−3
and not larger than −2.0×10
−4
.
According to the fifth aspect of the invention, there is provided an optical recording and/or reproducing apparatus using as a light source thereof a semiconductor light emitting device having a structure including an active layer between a p-type cladding layer and an n-type cladding layer on a base body, comprising:
at least one of the p-type cladding layer and the n-type cladding layer, and the active layer have a lattice mismatch relative to the base body not smaller than 2.0×10
−4
and not larger than 3.0×10
−3
or not smaller than −1.5×10
−3
and not larger than −2.0×10
−4
.
When the semiconductor layer stacked on the base body has a lattice mismatch with respect to the base body, the degree of the lattice mismatch &Dgr;a/a is expressed as &Dgr;a/a≡(a
2
−a
1
)/a
1
where a
1
is the lattice constant of the base body, and a
2
is the lattice constant of the semiconductor layer. In the present invention, the degree of the lattice mismatch is determined from the viewpoint of effectively preventing diffusion of impurities and from the view point of preventing dislocation in the crystal to be not smaller than 2.0×10
−4
and not larger than 3.0×10
−3
or not smaller than −1.5×10
−3
and not larger than −2.0×10
−4
, for example, or more preferably, not smaller than 3.0×10
−4
and not larger than 3.0×10
−3
or not smaller than −1.5×10
−3
and not larger than −3.0×10
−4
.
In the first and fourth aspects of the invention, the lattice mismatch may be either substantially even or uneven within the p-type cladding layer or the n-type cladding layer. In the second, third and fifth aspects of the invention, the lattice mismatch may be either substantially even or uneven within the p-type cladding layer, n-type cladding layer or active layer, or it may be substantially even among the p-type cladding layer, active layer and n-type cladding layer.
In the first, second, fourth and fifth aspects of the invention, one of the p-type cladding layer and the n-type cladding layer may include lattice mismatch, or both of them may include lattice mismatch. In the present invention, if both the p-type cladding layer and the n-type cladding layer include lattice mismatch, lattice mismatch of the p-type cladding layer with respect to the base body may be not smaller than 2.0×10
−4
and not larger than 3.0×10
−3
, and lattice mismatch of the n-type cladding layer with respect to the base body may be not smaller than −1.5×10
−3
and not larger than −2.0×10
−4
. The semiconductor light emitting device may include a first optical guide layer between the p-type cladding layer and the active layer and a second optical guide layer between the n-type cladding layer and the active layer. In this case, at least one of the first optical guide layer and the second optical guide layer may have lattice mismatch with respect to the base body in the range not smaller than 2.0×10
−4
and not larger than 3.0×10
−3
or not smaller than −1.5×10
−3
and not larger than −2.0×10
−4
.
In the present invention, the semiconductor light emitting device is typically an AlGaInP semiconductor light emitting device, and a GaAs substrate, for example, is used as the base body.
According to the first, second, fourth and fifth aspects of the invention, at least one of the p-type cladding layer and the n-type cladding layer has lattice mismatch with respect to the base body within the range not smaller than 2.0×10
−4
and not larger than 3.0×10
−3
or not smaller than −1.5×10
−3
and not larger than −2.0×10
&
Hirata Shoji
Iwamoto Koji
Matsunaga Shoichiro
Nagasaki Hiroki
Ip Paul
Sonnenschein Nath & Rosenthal
Sony Corporation
Zahn Jeffrey
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