Method for producing air-gap structure by selective etching aluminum arsenide using dilute hydrochloric acid

A technology of selective corrosion and aluminum arsenide, applied in the manufacture of microstructure devices, microstructure technology, microstructure devices, etc., can solve the problems of affecting the optical properties of the surface, slow etching rate, and long time required to reach the external environment The effect of small change, moderate lateral corrosion rate and easy control

Inactive Publication Date: 2009-06-17
INST OF SEMICONDUCTORS - CHINESE ACAD OF SCI
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Problems solved by technology

The selective etching of the sacrificial layer is accomplished by lateral etching. Therefore, when the gallium arsenide sacrificial layer is etched by a dry method, the etching rate is too slow, the time required is too long, and a thick layer must be used. mask to protect the mesa from being etched vertically
Selectively corroding the aluminum arsenide sacrificial layer with hydrofluoric acid solution will leave a reaction residue that is not easy to remove on the upper surface of the substrate, which will affect the optical performance of the surface. The aluminum arsenide sacrificial layer between two mirrors is used The method of selective etching after complete oxidation to alumina makes the process more complicated

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  • Method for producing air-gap structure by selective etching aluminum arsenide using dilute hydrochloric acid
  • Method for producing air-gap structure by selective etching aluminum arsenide using dilute hydrochloric acid
  • Method for producing air-gap structure by selective etching aluminum arsenide using dilute hydrochloric acid

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[0030] In order to make the object, technical solution and advantages of the present invention clearer, the present invention will be described in further detail below in conjunction with specific embodiments and with reference to the accompanying drawings.

[0031] The present invention is a method for making an air-gap structure by selectively corroding an aluminum arsenide sacrificial layer with dilute hydrochloric acid. The key steps of this method are further described in conjunction with the accompanying drawings:

[0032] a>MBE or MOCVD growth figure 1 The epitaxial wafer shown has a gallium arsenide substrate 1 with a structure of (001), and an aluminum arsenide sacrificial layer 2 with a thickness of half a wavelength or an integer multiple thereof. A distributed Bragg reflector 3 composed of gallium arsenide and gallium aluminum arsenide alternately, the content of aluminum in gallium aluminum arsenide is less than or equal to 90%, and the logarithm of gallium arsen...

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Abstract

The invention relates to a method for manufacturing an air gap structure by using dilute hydrochloric acid to selectively corrode an aluminum arsenide sacrificial layer, which comprises the following steps: a, growing a structure with the aluminum arsenide sacrificial layer on a gallium arsenide substrate by using a molecular beam epitaxial technique, and arranging a distributed Bragg reflector consisting of gallium arsenide and aluminum gallium arsenide on the aluminum arsenide sacrificial layer; b, photoetching a required graph on the surface of a wafer, non-selectively and vertically corroding a table top on the surface of the wafer, and exposing the side wall of the aluminum arsenide sacrificial layer; c, selectively corroding the aluminum arsenide sacrificial layer on the wafer by dilute hydrochloric acid in a thermostatic water bath; d, transferring the selectively corroded wafer to a beaker filled with methanol or acetone by a special polyfluorin porcelain perforated ladle, and cleaning the wafer; e, keeping the beaker filled with the methanol or the acetone standing in a constant temperature environment until the methanol or the acetone fully volatilizes, and taking out the wafer; and f, measuring the depth of corroding the aluminum arsenide at the side of the dilute hydrochloric acid, and estimating average rate of corroding the aluminum arsenide at the side of the dilute hydrochloric acid to obtain the required air gap structure.

Description

technical field [0001] The invention relates to the technical field of micromachining, and is a method for making an air-gap structure by utilizing the difference in corrosion rate of dilute hydrochloric acid solution to gallium-aluminum arsenide series materials with different aluminum contents to realize selective corrosion of aluminum arsenide sacrificial layer method. The invention can be used to make GaAs-based optoelectronics such as MEMS (micro-mechanical systems) wavelength-tunable vertical cavity optical filters, MEMS wavelength-tunable vertical cavity surface-emitting lasers, and MEMS wavelength-tunable resonator-enhanced photodetectors. device. Background technique [0002] With the development of a new generation of high-capacity and high-speed optical communication systems, dense wavelength division multiplexing technology has played an increasingly important role in optical communication. With the increase of the number of channels of different wavelengths in...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B81C1/00G03F7/00
Inventor 李文兵韩勤秦龙杨晓红倪海乔杜云朱彬鞠研玲
Owner INST OF SEMICONDUCTORS - CHINESE ACAD OF SCI
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