Influence of defects in HfO2 film on absorptance and LIDT measurements

Hao Liu; Feng Pan; Yaowei Wei; Ping Ma; Zhe Zhang; Qinghua Zhang; Qian Wu

doi:10.5768/JAO201536.0207004

Influence of defects in HfO₂ film on absorptance and LIDT measurements

Hao Liu, Feng Pan, Yaowei Wei, Ping Ma, Zhe Zhang, Qinghua Zhang, Qian Wu

China Academy of Engineering Physics

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

2 Scopus citations

Abstract

The absorption is a main cause of laser damage in optical coatings. A group of HfO₂ films were deposited under the oxygen pressure of 5 mPa ~ 43 mPa. When pressure was less than 20 mPa, the films with higher absorptance had lower laser-induced damage threshold (LIDT); however, when pressure was larger than 20 mPa, this correlation did not exist anymore. Defects might be the cause of such phenomenon. Defect models were established to mimic the absorptance test and the LIDT test. The influence of defect size, defect density, defect absorptive coefficient on absorptance and LIDT was studied, and the mechanism was analyzed. It is found that those defects with 1 000 times higher absorptive coefficient can significantly decrease LIDT to as large as 1 000 times, but do not influence the absorptance test at all. This might explain that some films with high absorptance have even higher LIDT, and some films with low absorptance have even lower LIDT.

Original language	English
Pages (from-to)	314-320
Number of pages	7
Journal	Journal of Applied Optics
Volume	36
Issue number	2
DOIs	https://doi.org/10.5768/JAO201536.0207004
State	Published - 1 Mar 2015
Externally published	Yes

Keywords

Defects
HfO film
LIDT
Weak absorptance

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title = "Influence of defects in HfO2 film on absorptance and LIDT measurements",

abstract = "The absorption is a main cause of laser damage in optical coatings. A group of HfO2 films were deposited under the oxygen pressure of 5 mPa ~ 43 mPa. When pressure was less than 20 mPa, the films with higher absorptance had lower laser-induced damage threshold (LIDT); however, when pressure was larger than 20 mPa, this correlation did not exist anymore. Defects might be the cause of such phenomenon. Defect models were established to mimic the absorptance test and the LIDT test. The influence of defect size, defect density, defect absorptive coefficient on absorptance and LIDT was studied, and the mechanism was analyzed. It is found that those defects with 1 000 times higher absorptive coefficient can significantly decrease LIDT to as large as 1 000 times, but do not influence the absorptance test at all. This might explain that some films with high absorptance have even higher LIDT, and some films with low absorptance have even lower LIDT.",

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author = "Hao Liu and Feng Pan and Yaowei Wei and Ping Ma and Zhe Zhang and Qinghua Zhang and Qian Wu",

year = "2015",

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doi = "10.5768/JAO201536.0207004",

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T1 - Influence of defects in HfO2 film on absorptance and LIDT measurements

AU - Liu, Hao

AU - Pan, Feng

AU - Wei, Yaowei

AU - Ma, Ping

AU - Zhang, Zhe

AU - Zhang, Qinghua

AU - Wu, Qian

PY - 2015/3/1

Y1 - 2015/3/1

N2 - The absorption is a main cause of laser damage in optical coatings. A group of HfO2 films were deposited under the oxygen pressure of 5 mPa ~ 43 mPa. When pressure was less than 20 mPa, the films with higher absorptance had lower laser-induced damage threshold (LIDT); however, when pressure was larger than 20 mPa, this correlation did not exist anymore. Defects might be the cause of such phenomenon. Defect models were established to mimic the absorptance test and the LIDT test. The influence of defect size, defect density, defect absorptive coefficient on absorptance and LIDT was studied, and the mechanism was analyzed. It is found that those defects with 1 000 times higher absorptive coefficient can significantly decrease LIDT to as large as 1 000 times, but do not influence the absorptance test at all. This might explain that some films with high absorptance have even higher LIDT, and some films with low absorptance have even lower LIDT.

AB - The absorption is a main cause of laser damage in optical coatings. A group of HfO2 films were deposited under the oxygen pressure of 5 mPa ~ 43 mPa. When pressure was less than 20 mPa, the films with higher absorptance had lower laser-induced damage threshold (LIDT); however, when pressure was larger than 20 mPa, this correlation did not exist anymore. Defects might be the cause of such phenomenon. Defect models were established to mimic the absorptance test and the LIDT test. The influence of defect size, defect density, defect absorptive coefficient on absorptance and LIDT was studied, and the mechanism was analyzed. It is found that those defects with 1 000 times higher absorptive coefficient can significantly decrease LIDT to as large as 1 000 times, but do not influence the absorptance test at all. This might explain that some films with high absorptance have even higher LIDT, and some films with low absorptance have even lower LIDT.

KW - Defects

KW - HfO film

KW - LIDT

KW - Weak absorptance

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DO - 10.5768/JAO201536.0207004

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ER -

Influence of defects in HfO₂ film on absorptance and LIDT measurements

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Keywords

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