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Manufacturing method of GaN substrate laser diode

A laser diode and substrate technology, applied in lasers, laser components, semiconductor lasers, etc., can solve problems such as crystal strain, quality and performance reduction of epitaxial layers on substrates, and shortened life of laser diodes

Inactive Publication Date: 2012-12-19
JIANGSU WINAD LIGHTING TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

The above-mentioned semiconductor materials used as substrates generally contain various defects, such as dislocations, gaps or vacancies, etc. The defects will cause crystal strain, and the strain will reduce the quality and performance of the epitaxial layer on the substrate, resulting in a shortened life of the laser diode.

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  • Manufacturing method of GaN substrate laser diode

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Embodiment Construction

[0016] The present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments, but not as a limitation of the present invention.

[0017] figure 1 A schematic diagram of the structure of the laser diode of the present invention is shown. It includes a p-GaN substrate 1 on which a p-type cladding layer 2 , a p-type light guide layer 3 and an active layer 4 are deposited in sequence.

[0018] P-type cladding layer 2 is p-Al a In b Ga 1-a-b N, p-type optical guide layer 3 is p-Al c In d Ga 1-c-d N, where 0≤a, b, c, d, a+b, c+d≤1.

[0019] Cladding layer 2 can also be p-Al a In b Ga 1-a-b N superlattice.

[0020] Active layer 4 is p-Al with superlattice structure e In f Ga 1-e-f N / p-AI g In h Ga 1-g-h N multiple quantum well layers, where 0≤e, f, g, h, e+f, g+h≤1.

[0021] An n-type barrier layer 5 is also deposited on the active layer 4, and the n-type barrier layer 5 is n-Al i In j Ga 1-i-j N, on which ...

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Abstract

The invention discloses a manufacturing method of a GaN substrate laser diode. The manufacturing method comprises the following steps of: forming a GaN substrate and successively depositing a p-type coating layer, a p-type light guide layer, an active layer, an n-type blocking layer, an n-type light guide layer and an n-type coating layer, wherein the method for forming the GaN substrate comprises the following steps of: putting a GaN wafer into a high-temperature and high-pressure device, heating and pressurizing the GaN wafer with the heating temperature being 820-880 DEG C and the applied pressure being 4.1-4.6GPa, and maintaining for 10-15 minutes; stopping heating and pressurizing so that the GaN wafer is restored to normal temperature and normal pressure; and annealing for 20-30 minutes in the high-temperature and high-pressure device, and taking out the GaN wafer. The manufacturing method disclosed by the invention has the advantages that the crystal defect density of the laser diode substrate can be obviously reduced, and the performance and the service life of the laser diode are improved.

Description

technical field [0001] The invention relates to a manufacturing method of a laser diode. Background technique [0002] A laser diode (LD) is a diode formed of semiconductor materials, and its basic structure includes a substrate and a P / N cladding layer deposited on the substrate in sequence, an active layer and a P / N cladding layer, and an N Ohmic contacts on the P-type and P-type cladding layers. As the foundation of the building of LD, the substrate plays an important role. Sapphire is a commonly used LD substrate, but due to the lattice and thermal stress mismatch between it and the heterogeneous epitaxial layer on it, it will crack due to different expansion degrees after heating, resulting in device damage. Another type of LD substrate includes GaN, GaAs, InP and other semiconductor materials. The above-mentioned semiconductor materials used as substrates generally contain various defects, such as dislocations, gaps or vacancies, etc. The defects will cause crystal ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01S5/323
Inventor 虞浩辉周宇杭
Owner JIANGSU WINAD LIGHTING TECH
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