Research on a novel fiber Bragg grating thermal tuning scheme

Qun Han; Ke Cheng Lu; Jia Fang Li; Yi Gang Li; Sheng Ping Chen

Research on a novel fiber Bragg grating thermal tuning scheme

Qun Han^*, Ke Cheng Lu, Jia Fang Li, Yi Gang Li, Sheng Ping Chen

^*Corresponding author for this work

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

5 Citations (Scopus)

Abstract

A novel fiber Bragg grating thermal tuning scheme is proposed, theoretically analyzed and experimentally studied. The device made from this scheme is named double-shoulder beam (DSB). Experimentla results demonstrate that DSB is an effective thermal tuning technique. A thermal sensitivity of 0.436 nm/°C, 50 times that of the bare fiber grating, is experimentally achieved. To our knowledge, this is the largest thermal sensitivity ever demonstrated. The repeatability and linearity of the technique is very well. The most important advantage of DSB, as a breakthrough to conventional thermal tuning technique, is its great flexibility. It makes the thermal-tuning efficiency of fiber grating no longer limited by the thermal-expansion coefficient of the drive materials, but can be designed according to practical requirements. This technique is expected to have a vast application in fields such as laser tuning, high sensitivity temperature sensing, sensor demultiplexing and so forth.

Original language	English
Pages (from-to)	4253-4256
Number of pages	4
Journal	Wuli Xuebao/Acta Physica Sinica
Volume	53
Issue number	12
Publication status	Published - Dec 2004
Externally published	Yes

Keywords

Double-shoulder beam
Fiber grating
Thermal tuning
Tuning

Cite this

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title = "Research on a novel fiber Bragg grating thermal tuning scheme",

abstract = "A novel fiber Bragg grating thermal tuning scheme is proposed, theoretically analyzed and experimentally studied. The device made from this scheme is named double-shoulder beam (DSB). Experimentla results demonstrate that DSB is an effective thermal tuning technique. A thermal sensitivity of 0.436 nm/°C, 50 times that of the bare fiber grating, is experimentally achieved. To our knowledge, this is the largest thermal sensitivity ever demonstrated. The repeatability and linearity of the technique is very well. The most important advantage of DSB, as a breakthrough to conventional thermal tuning technique, is its great flexibility. It makes the thermal-tuning efficiency of fiber grating no longer limited by the thermal-expansion coefficient of the drive materials, but can be designed according to practical requirements. This technique is expected to have a vast application in fields such as laser tuning, high sensitivity temperature sensing, sensor demultiplexing and so forth.",

keywords = "Double-shoulder beam, Fiber grating, Thermal tuning, Tuning",

author = "Qun Han and Lu, {Ke Cheng} and Li, {Jia Fang} and Li, {Yi Gang} and Chen, {Sheng Ping}",

year = "2004",

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pages = "4253--4256",

journal = "Wuli Xuebao/Acta Physica Sinica",

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T1 - Research on a novel fiber Bragg grating thermal tuning scheme

AU - Han, Qun

AU - Lu, Ke Cheng

AU - Li, Jia Fang

AU - Li, Yi Gang

AU - Chen, Sheng Ping

PY - 2004/12

Y1 - 2004/12

N2 - A novel fiber Bragg grating thermal tuning scheme is proposed, theoretically analyzed and experimentally studied. The device made from this scheme is named double-shoulder beam (DSB). Experimentla results demonstrate that DSB is an effective thermal tuning technique. A thermal sensitivity of 0.436 nm/°C, 50 times that of the bare fiber grating, is experimentally achieved. To our knowledge, this is the largest thermal sensitivity ever demonstrated. The repeatability and linearity of the technique is very well. The most important advantage of DSB, as a breakthrough to conventional thermal tuning technique, is its great flexibility. It makes the thermal-tuning efficiency of fiber grating no longer limited by the thermal-expansion coefficient of the drive materials, but can be designed according to practical requirements. This technique is expected to have a vast application in fields such as laser tuning, high sensitivity temperature sensing, sensor demultiplexing and so forth.

AB - A novel fiber Bragg grating thermal tuning scheme is proposed, theoretically analyzed and experimentally studied. The device made from this scheme is named double-shoulder beam (DSB). Experimentla results demonstrate that DSB is an effective thermal tuning technique. A thermal sensitivity of 0.436 nm/°C, 50 times that of the bare fiber grating, is experimentally achieved. To our knowledge, this is the largest thermal sensitivity ever demonstrated. The repeatability and linearity of the technique is very well. The most important advantage of DSB, as a breakthrough to conventional thermal tuning technique, is its great flexibility. It makes the thermal-tuning efficiency of fiber grating no longer limited by the thermal-expansion coefficient of the drive materials, but can be designed according to practical requirements. This technique is expected to have a vast application in fields such as laser tuning, high sensitivity temperature sensing, sensor demultiplexing and so forth.

KW - Double-shoulder beam

KW - Fiber grating

KW - Thermal tuning

KW - Tuning

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M3 - Article

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JF - Wuli Xuebao/Acta Physica Sinica

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Research on a novel fiber Bragg grating thermal tuning scheme

Abstract

Keywords

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