Semiconductor laser, method of mounting semiconductor laser, semiconductor laser mounted structure, and optical disk system
First Claim
1. A semiconductor laser comprising:
- a substrate;
a first clad layer of a first conduction type on said substrate;
an active layer on said first clad layer;
a second clad layer of a second conduction type on said active layer; and
a contact layer of the second conduction type on said second clad layer,wherein,an upper portion of each of said second clad layer and said contact layer is provided with a pair of grooves in parallel to each other and at a predetermined interval so as to form a ridge therebetween,an electrode on the second conduction type side is formed only on said ridge,an insulation layer is provided on side surfaces of said ridge, on the inside of said grooves, and on said contact layer in the areas on the outside of said grooves, and the thickness of those portions of said insulation layer which are located on said contact layer in said areas on the outside of said grooves is greater than at least the thickness of said electrode on the second conduction type side,a pad electrode is formed to cover said electrode on the second conduction type side and to extend on said insulation layer on the upper side of said areas on the outside of said grooves, and the upper surfaces of those portions of said pad electrode which are located on the upper side of said areas on the outside of said grooves are located above the upper surface of that portion of said pad electrode which is located on the upper side of said ridge, andsaid second conduction type electrode covers said contact layer of the second conduction type and said insulating layer.
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Accused Products
Abstract
An upper portion of a second clad layer and a contact layer are provided with grooves so as to form a ridge therebetween. An electrode is formed on the ridge. An insulation film is formed to extent on side surfaces of the ridge, on the inside of the grooves, and those portions of the contact layer which are located on the outside of the grooves. The thickness of those portions of the insulation film which are located on the contact layer in the areas on the outside of the grooves is set to be greater than at least the thickness of the electrode. Besides, a pad electrode is formed to cover the electrode and to extend on the insulation film on the upper side of the areas on the outside of the grooves. The upper surfaces of those portions of the pad electrode which are located on the upper side of the areas on the outside of the grooves are set to be above the upper surface of that portion of the pad electrode which is located on the upper side of the ridge.
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Citations
9 Claims
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1. A semiconductor laser comprising:
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a substrate; a first clad layer of a first conduction type on said substrate; an active layer on said first clad layer; a second clad layer of a second conduction type on said active layer; and a contact layer of the second conduction type on said second clad layer, wherein, an upper portion of each of said second clad layer and said contact layer is provided with a pair of grooves in parallel to each other and at a predetermined interval so as to form a ridge therebetween, an electrode on the second conduction type side is formed only on said ridge, an insulation layer is provided on side surfaces of said ridge, on the inside of said grooves, and on said contact layer in the areas on the outside of said grooves, and the thickness of those portions of said insulation layer which are located on said contact layer in said areas on the outside of said grooves is greater than at least the thickness of said electrode on the second conduction type side, a pad electrode is formed to cover said electrode on the second conduction type side and to extend on said insulation layer on the upper side of said areas on the outside of said grooves, and the upper surfaces of those portions of said pad electrode which are located on the upper side of said areas on the outside of said grooves are located above the upper surface of that portion of said pad electrode which is located on the upper side of said ridge, and said second conduction type electrode covers said contact layer of the second conduction type and said insulating layer. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of mounting a semiconductor laser on a sub-mount, said method comprising the steps of:
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forming a substrate; forming a first clad layer of a first conduction type on said substrate; forming an active layer on said first clad layer; forming a second clad layer of a second conduction type on said active layer; and forming a contact layer of the second conduction type on said second clad layer, providing upper portions of each of said second clad layer and of said contact layer with a pair of grooves in parallel to each other and at a predetermined interval so as to form a ridge therebetween; forming an electrode on the second conduction type side only on said ridge, providing an insulation layer on side surfaces of said ridge, on the inside of said grooves, and on said contact layer in the areas on the outside of said grooves, and the thickness of those portions of said insulation layer which are located on said contact layer in said areas on the outside of said grooves is greater than at least the thickness of said electrode on the second conduction type side, forming a pad electrode to cover said electrode on the second conduction type side and to extend on said insulation layer on the upper side of said areas on the outside of said grooves, and the upper surfaces of those portions of said pad electrode which are located on the upper side of said areas on the outside of said grooves are located above the upper surface of that portion of said pad electrode which is located on the upper side of said ridge, and mounting said semiconductor laser on said sub-mount by soldering, a pattern of a solder corresponding to said soldering is such that said solder is absent on an extension line of said ridge of said semiconductor laser, and said mounting is performed such that an end face on the front side of said semiconductor laser protrudes to the outside of said sub-mount, wherein, said second conduction type electrode covers said contact layer of the second conduction type and said insulating layer.
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8. A semiconductor laser mounted structure comprising a semiconductor laser mounted on a sub-mount, said semiconductor laser comprising:
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a substrate; a first clad layer of a first conduction type on said substrate; an active layer on said first clad layer; a second clad layer of a second conduction type on said active layer; and a contact layer of the second conduction type on said second clad layer, wherein, an upper portion of said second clad layer and said contact layer are provided with a pair of grooves in parallel to each other and at a predetermined interval so as to form a ridge therebetween, an electrode on the second conduction type side is formed only on said ridge, an insulation layer is provided on side surfaces of said ridge, on the inside of said grooves, and on said contact layer in the areas on the outside of said grooves, and the thickness of those portions of said insulation layer which are located on said contact layer in said areas on the outside of said grooves is greater than at least the thickness of said electrode on the second conduction type side, a pad electrode is formed to cover said electrode on the second conduction type side and to extend on said insulation layer on the upper side of said areas on the outside of said grooves, and the upper surfaces of those portions of said pad electrode which are located on the upper side of said areas on the outside of said grooves are located above the upper surface of that portion of said pad electrode which is located on the upper side of said ridge, said semiconductor laser is mounted on said sub-mount by soldering, a pattern of a solder corresponding to said soldering is such that said solder is absent on an extension line of said ridge of said semiconductor laser, and said mounting is performed such that an end face on the front side of said semiconductor laser protrudes to the outside of said sub-mount, and wherein, said second conduction type electrode covers said contact layer of the second conduction type and said insulating layer.
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9. An optical disk system using a semiconductor laser as a light source, said semiconductor laser comprising:
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a substrate; a first clad layer of a first conduction type on said substrate; an active layer on said first clad layer; a second clad layer of a second conduction type on said active layer; and a contact layer of the second conduction type on said second clad layer, wherein, an upper portion of said second clad layer and said contact layer are provided with a pair of grooves in parallel to each other and at a predetermined interval so as to form a ridge therebetween, an electrode on the second conduction type side is formed only on said ridge, an insulation layer is provided on side surfaces of said ridge, on the inside of said grooves, and on said contact layer in the areas on the outside of said grooves, and the thickness of those portions of said insulation layer which are located on said contact layer in said areas on the outside of said grooves is greater than at least the thickness of said electrode on the second conduction type side, a pad electrode is formed to cover said electrode on the second conduction type side and to extend on said insulation layer on the upper side of said areas on the outside of said grooves, and the upper surfaces of those portions of said pad electrode which are located on the upper side of said areas on the outside of said grooves are located above the upper surface of that portion of said pad electrode which is located on the upper side of said ridge, and wherein, said second conduction type electrode covers said contact layer of the second conduction type and said insulating layer.
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Specification