Fiber borehole strainmeter based on Michelson interferometer

Zhuoxun Lai; Yi Jiang; Hua Peng; Xiumin Ma

Fiber borehole strainmeter based on Michelson interferometer

Zhuoxun Lai, Yi Jiang^*, Hua Peng, Xiumin Ma

^*Corresponding author for this work

School of Optics and Photonics

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

1 Citation (Scopus)

Abstract

The measurement of borehole strain is the main approach to observe crustal stress condition and its variation. It is an important way in understanding the relationship between the earth strain abnormality and the geological calamity. A fiber borehole strainmeter based on a Michelson interferometer is developed, in which the earth strain is transformed to the change in length of an optical fiber. Another one optical fiber, acting as the reference arm, is used to reduce the influence resulted from temperature and environment. Experimental results show that the strain sensitivity is 117 nm, which has much room for improvement. This sensor has advantages over traditional ones, and can be further developed for use in field observation stations.

Original language	English
Pages (from-to)	494-497
Number of pages	4
Journal	Guangxue Jishu/Optical Technique
Volume	41
Issue number	6
Publication status	Published - 1 Nov 2015

Keywords

Borehole strainmeter
Fiber Michelson interferometer
Fiber optic sensor

Cite this

Lai, Z., Jiang, Y., Peng, H., & Ma, X. (2015). Fiber borehole strainmeter based on Michelson interferometer. Guangxue Jishu/Optical Technique, 41(6), 494-497.

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abstract = "The measurement of borehole strain is the main approach to observe crustal stress condition and its variation. It is an important way in understanding the relationship between the earth strain abnormality and the geological calamity. A fiber borehole strainmeter based on a Michelson interferometer is developed, in which the earth strain is transformed to the change in length of an optical fiber. Another one optical fiber, acting as the reference arm, is used to reduce the influence resulted from temperature and environment. Experimental results show that the strain sensitivity is 117 nm, which has much room for improvement. This sensor has advantages over traditional ones, and can be further developed for use in field observation stations.",

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T1 - Fiber borehole strainmeter based on Michelson interferometer

AU - Lai, Zhuoxun

AU - Jiang, Yi

AU - Peng, Hua

AU - Ma, Xiumin

PY - 2015/11/1

Y1 - 2015/11/1

N2 - The measurement of borehole strain is the main approach to observe crustal stress condition and its variation. It is an important way in understanding the relationship between the earth strain abnormality and the geological calamity. A fiber borehole strainmeter based on a Michelson interferometer is developed, in which the earth strain is transformed to the change in length of an optical fiber. Another one optical fiber, acting as the reference arm, is used to reduce the influence resulted from temperature and environment. Experimental results show that the strain sensitivity is 117 nm, which has much room for improvement. This sensor has advantages over traditional ones, and can be further developed for use in field observation stations.

AB - The measurement of borehole strain is the main approach to observe crustal stress condition and its variation. It is an important way in understanding the relationship between the earth strain abnormality and the geological calamity. A fiber borehole strainmeter based on a Michelson interferometer is developed, in which the earth strain is transformed to the change in length of an optical fiber. Another one optical fiber, acting as the reference arm, is used to reduce the influence resulted from temperature and environment. Experimental results show that the strain sensitivity is 117 nm, which has much room for improvement. This sensor has advantages over traditional ones, and can be further developed for use in field observation stations.

KW - Borehole strainmeter

KW - Fiber Michelson interferometer

KW - Fiber optic sensor

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JO - Guangxue Jishu/Optical Technique

JF - Guangxue Jishu/Optical Technique

IS - 6

ER -

Fiber borehole strainmeter based on Michelson interferometer

Abstract

Keywords

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