Etch pits observation and in distribution in mercury indium telluride single crystals

Linghang Wang; Wanqi Jie; Yang Yang; Gang Xu; Li Fu

doi:10.1088/0268-1242/23/5/055015

Etch pits observation and in distribution in mercury indium telluride single crystals

Linghang Wang
, Wanqi Jie
, Yang Yang
, Gang Xu
, Li Fu

School of Materials Sience and Engineering

Northwestern Polytechnical University Xian

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

3 Scopus citations

Abstract

Mercury indium telluride (MIT) crystal, Hg_(3-3x)In _2xTe₃ (x = 0.5), is one of the most promising novel materials for room temperature near-infrared photodetectors. By the vertical Bridgman method, several MIT ingots were grown. An etchant for displaying the etch pits was developed. The etch pits of dislocations and boundary were observed. It was found that the etch pits were in the shape of the isosceles triangle, and the etch pits' density of dislocations was about 4 × 10 ⁵ cm^-2. The characteristics of In in MIT ingots were studied. The composition distributions reveal that the segregation coefficient of In in MIT is 1.15. Te and In reduced at the grain boundary, while they were homogeneous within the grains. I-V measurements show that In/MIT contact was a good Ohmic contact. The resistivity of the measured MIT wafers was about 238 Ω cm.

Original language	English
Article number	055015
Journal	Semiconductor Science and Technology
Volume	23
Issue number	5
DOIs	https://doi.org/10.1088/0268-1242/23/5/055015
State	Published - 1 May 2008

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title = "Etch pits observation and in distribution in mercury indium telluride single crystals",

abstract = "Mercury indium telluride (MIT) crystal, Hg(3-3x)In 2xTe3 (x = 0.5), is one of the most promising novel materials for room temperature near-infrared photodetectors. By the vertical Bridgman method, several MIT ingots were grown. An etchant for displaying the etch pits was developed. The etch pits of dislocations and boundary were observed. It was found that the etch pits were in the shape of the isosceles triangle, and the etch pits' density of dislocations was about 4 × 10 5 cm-2. The characteristics of In in MIT ingots were studied. The composition distributions reveal that the segregation coefficient of In in MIT is 1.15. Te and In reduced at the grain boundary, while they were homogeneous within the grains. I-V measurements show that In/MIT contact was a good Ohmic contact. The resistivity of the measured MIT wafers was about 238 Ω cm.",

author = "Linghang Wang and Wanqi Jie and Yang Yang and Gang Xu and Li Fu",

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TY - JOUR

T1 - Etch pits observation and in distribution in mercury indium telluride single crystals

AU - Wang, Linghang

AU - Jie, Wanqi

AU - Yang, Yang

AU - Xu, Gang

AU - Fu, Li

PY - 2008/5/1

Y1 - 2008/5/1

N2 - Mercury indium telluride (MIT) crystal, Hg(3-3x)In 2xTe3 (x = 0.5), is one of the most promising novel materials for room temperature near-infrared photodetectors. By the vertical Bridgman method, several MIT ingots were grown. An etchant for displaying the etch pits was developed. The etch pits of dislocations and boundary were observed. It was found that the etch pits were in the shape of the isosceles triangle, and the etch pits' density of dislocations was about 4 × 10 5 cm-2. The characteristics of In in MIT ingots were studied. The composition distributions reveal that the segregation coefficient of In in MIT is 1.15. Te and In reduced at the grain boundary, while they were homogeneous within the grains. I-V measurements show that In/MIT contact was a good Ohmic contact. The resistivity of the measured MIT wafers was about 238 Ω cm.

AB - Mercury indium telluride (MIT) crystal, Hg(3-3x)In 2xTe3 (x = 0.5), is one of the most promising novel materials for room temperature near-infrared photodetectors. By the vertical Bridgman method, several MIT ingots were grown. An etchant for displaying the etch pits was developed. The etch pits of dislocations and boundary were observed. It was found that the etch pits were in the shape of the isosceles triangle, and the etch pits' density of dislocations was about 4 × 10 5 cm-2. The characteristics of In in MIT ingots were studied. The composition distributions reveal that the segregation coefficient of In in MIT is 1.15. Te and In reduced at the grain boundary, while they were homogeneous within the grains. I-V measurements show that In/MIT contact was a good Ohmic contact. The resistivity of the measured MIT wafers was about 238 Ω cm.

UR - https://www.scopus.com/pages/publications/43149106193

U2 - 10.1088/0268-1242/23/5/055015

DO - 10.1088/0268-1242/23/5/055015

M3 - 文章

AN - SCOPUS:43149106193

SN - 0268-1242

VL - 23

JO - Semiconductor Science and Technology

JF - Semiconductor Science and Technology

IS - 5

M1 - 055015

ER -

Etch pits observation and in distribution in mercury indium telluride single crystals

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