A new high-efficiency and low-damage polishing process of HgCdTe wafer

Yan Li; Jie Wanqi; Hang Gao; Renke Kang

doi:10.1080/10426914.2011.566661

A new high-efficiency and low-damage polishing process of HgCdTe wafer

Yan Li, Jie Wanqi, Hang Gao, Renke Kang

School of Materials Sience and Engineering

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

HgCdTe crystals have been accepted as a very important material of infrared detectors, and due to their soft-brittle nature, machining HgCdTe wafers is a challenge in the field of ultraprecision manufacture. In this article, the new polishing slurry is developed, and the new polishing process is employed to polish HgCdTe wafers; the polishing results showed that the polished surface roughness Ra is as small as 0.32nm, the polished surface is smooth and flat, and the subsurface damage only contains thin amorphous layer with depth of 3nm. The material removal mechanism during polishing HgCdTe wafers is that HgCdTe react with oxidant and acid in the polishing slurry, and at last, the polished surfaces are covered with HgCdTe and TeO ₂.

Original language	English
Pages (from-to)	229-232
Number of pages	4
Journal	Materials and Manufacturing Processes
Volume	27
Issue number	2
DOIs	https://doi.org/10.1080/10426914.2011.566661
State	Published - 1 Feb 2012

Keywords

Dmage
HgCdTe
Mechanism
Polishing
Removal
Roughness
Slurry
Subsurface
Surface

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10.1080/10426914.2011.566661

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abstract = "HgCdTe crystals have been accepted as a very important material of infrared detectors, and due to their soft-brittle nature, machining HgCdTe wafers is a challenge in the field of ultraprecision manufacture. In this article, the new polishing slurry is developed, and the new polishing process is employed to polish HgCdTe wafers; the polishing results showed that the polished surface roughness Ra is as small as 0.32nm, the polished surface is smooth and flat, and the subsurface damage only contains thin amorphous layer with depth of 3nm. The material removal mechanism during polishing HgCdTe wafers is that HgCdTe react with oxidant and acid in the polishing slurry, and at last, the polished surfaces are covered with HgCdTe and TeO 2.",

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AU - Wanqi, Jie

AU - Gao, Hang

AU - Kang, Renke

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AB - HgCdTe crystals have been accepted as a very important material of infrared detectors, and due to their soft-brittle nature, machining HgCdTe wafers is a challenge in the field of ultraprecision manufacture. In this article, the new polishing slurry is developed, and the new polishing process is employed to polish HgCdTe wafers; the polishing results showed that the polished surface roughness Ra is as small as 0.32nm, the polished surface is smooth and flat, and the subsurface damage only contains thin amorphous layer with depth of 3nm. The material removal mechanism during polishing HgCdTe wafers is that HgCdTe react with oxidant and acid in the polishing slurry, and at last, the polished surfaces are covered with HgCdTe and TeO 2.

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KW - Mechanism

KW - Polishing

KW - Removal

KW - Roughness

KW - Slurry

KW - Subsurface

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A new high-efficiency and low-damage polishing process of HgCdTe wafer

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Keywords

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