Water Temperature and Salinity Measurement Using Frequency Comb

Water Temperature and Salinity Measurement Using Frequency Comb

Water temperature and salinity are key parameters in many fields such as industry, forestry and agriculture. In this paper, we, theoretically and experimentally, demonstrate a method which is capable of water temperature and salinity measurement based on a laser frequency comb at 518 nm. We have dev...

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Bibliographic Details
Main Authors: Haoyun Zhang, Xinyang Xu, Haihan Zhao, Fanpeng Dong, Zhiwen Qian, Bin Xue
Format: Article
Language:English
Published: MDPI AG 2019-11-01
Series:Applied Sciences
Subjects:
water temperature and salinity
frequency comb
empirical formulas
Online Access:https://www.mdpi.com/2076-3417/9/23/5043
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spelling doaj-317d816c5bec43c3856a744963704f432020-11-25T01:44:05ZengMDPI AGApplied Sciences2076-34172019-11-01923504310.3390/app9235043app9235043Water Temperature and Salinity Measurement Using Frequency CombHaoyun Zhang0Xinyang Xu1Haihan Zhao2Fanpeng Dong3Zhiwen Qian4Bin Xue5School of Marine Science and Technology, TianJin University, TianJin 300072, ChinaSchool of Marine Science and Technology, TianJin University, TianJin 300072, ChinaSchool of Marine Science and Technology, TianJin University, TianJin 300072, ChinaSchool of Marine Science and Technology, TianJin University, TianJin 300072, ChinaSchool of Marine Science and Technology, TianJin University, TianJin 300072, ChinaSchool of Marine Science and Technology, TianJin University, TianJin 300072, ChinaWater temperature and salinity are key parameters in many fields such as industry, forestry and agriculture. In this paper, we, theoretically and experimentally, demonstrate a method which is capable of water temperature and salinity measurement based on a laser frequency comb at 518 nm. We have developed a simple Michelson interferometer system. By scanning a mirror on a precision displacement platform, a pair of cross-correlation patterns can be obtained. The real-time optical distance information from these cross-correlation patterns can be used to calculate the optical distance difference changes. Temperature and salinity can be measured via these changes, aided by the empirical formulas. Compared with the reference values, our results show the differences of below 0.12 °C for temperature measurements, and 0.06 ‱ for salinity measurements. The obtained results indicate that our method can offer a powerful scheme for future temperature and salinity measurement.https://www.mdpi.com/2076-3417/9/23/5043water temperature and salinityfrequency combempirical formulas
collection DOAJ
language English
format Article
sources DOAJ
author Haoyun Zhang
Xinyang Xu
Haihan Zhao
Fanpeng Dong
Zhiwen Qian
Bin Xue
spellingShingle Haoyun Zhang
Xinyang Xu
Haihan Zhao
Fanpeng Dong
Zhiwen Qian
Bin Xue
Water Temperature and Salinity Measurement Using Frequency Comb
Applied Sciences
water temperature and salinity
frequency comb
empirical formulas
author_facet Haoyun Zhang
Xinyang Xu
Haihan Zhao
Fanpeng Dong
Zhiwen Qian
Bin Xue
author_sort Haoyun Zhang
title Water Temperature and Salinity Measurement Using Frequency Comb
title_short Water Temperature and Salinity Measurement Using Frequency Comb
title_full Water Temperature and Salinity Measurement Using Frequency Comb
title_fullStr Water Temperature and Salinity Measurement Using Frequency Comb
title_full_unstemmed Water Temperature and Salinity Measurement Using Frequency Comb
title_sort water temperature and salinity measurement using frequency comb
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2019-11-01
description Water temperature and salinity are key parameters in many fields such as industry, forestry and agriculture. In this paper, we, theoretically and experimentally, demonstrate a method which is capable of water temperature and salinity measurement based on a laser frequency comb at 518 nm. We have developed a simple Michelson interferometer system. By scanning a mirror on a precision displacement platform, a pair of cross-correlation patterns can be obtained. The real-time optical distance information from these cross-correlation patterns can be used to calculate the optical distance difference changes. Temperature and salinity can be measured via these changes, aided by the empirical formulas. Compared with the reference values, our results show the differences of below 0.12 °C for temperature measurements, and 0.06 ‱ for salinity measurements. The obtained results indicate that our method can offer a powerful scheme for future temperature and salinity measurement.
topic water temperature and salinity
frequency comb
empirical formulas
url https://www.mdpi.com/2076-3417/9/23/5043
work_keys_str_mv AT haoyunzhang watertemperatureandsalinitymeasurementusingfrequencycomb
AT xinyangxu watertemperatureandsalinitymeasurementusingfrequencycomb
AT haihanzhao watertemperatureandsalinitymeasurementusingfrequencycomb
AT fanpengdong watertemperatureandsalinitymeasurementusingfrequencycomb
AT zhiwenqian watertemperatureandsalinitymeasurementusingfrequencycomb
AT binxue watertemperatureandsalinitymeasurementusingfrequencycomb
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