Near-infrared supercontinuum generation in conventional single mode fiber used in optical sensor

Chen Han Huang; Hsing Ying Lin; Chien Hsiang Fan; Hsiang Chen Chui

doi:10.1109/ICCA.2014.6871100

Near-infrared supercontinuum generation in conventional single mode fiber used in optical sensor

Chen Han Huang, Hsing Ying Lin, Chien Hsiang Fan, Hsiang Chen Chui

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The near-infrared supercontinuum light was generated in a single mode optical fiber by the femtosecond pulses from an unamplified Ti:sapphire laser. The light source possesses properties of high repetition rate, peak power, and low optical damage, and thus can used for optical sensors. Supercontinuum generation is a complex nonlinear phenomenon that is characterized by the dramatic spectral broadening of intense light pulses passing through a nonlinear material. Special fibers, such as the fluoride fiber and tapered fiber, spanning over three octaves from UV to 3.85 m and over two octaves from 370∼1550 nm, respectively, are used to generate the supercontinuum. The spectra span more than an octave and retain the longitudinal mode structure of the mode-locked laser source, which recently led to spectacular advances in optical frequency metrology. In this study, a conventional single mode optical fiber with a cladding-free central section immobilized metal nanoparticles was used to generate the near-infrared supercontinuum light. The absorption spectrum of nanoparticals on the optical fiber can be measured by the homemade tunable near-infrared supercontinuum light source from the single mode fiber. It offers a simple and cost-effective method to generate a near-infrared light source to serve for spectral measurements and achieving the fiber-optic sensing.

Original language	English
Title of host publication	11th IEEE International Conference on Control and Automation, IEEE ICCA 2014
Publisher	IEEE Computer Society
Pages	1244-1246
Number of pages	3
ISBN (Print)	9781479928378
DOIs	https://doi.org/10.1109/ICCA.2014.6871100
State	Published - 2014
Event	11th IEEE International Conference on Control and Automation, IEEE ICCA 2014 - Taichung, Taiwan Duration: 18 Jun 2014 → 20 Jun 2014

Publication series

Name	IEEE International Conference on Control and Automation, ICCA
ISSN (Print)	1948-3449
ISSN (Electronic)	1948-3457

Conference

Conference	11th IEEE International Conference on Control and Automation, IEEE ICCA 2014
Country/Territory	Taiwan
City	Taichung
Period	18/06/14 → 20/06/14

Keywords

absorption
biosensing
femtosecond pulse
fiber optics
supercontinuum generation

Access to Document

10.1109/ICCA.2014.6871100

Cite this

Huang, C. H., Lin, H. Y., Fan, C. H., & Chui, H. C. (2014). Near-infrared supercontinuum generation in conventional single mode fiber used in optical sensor. In 11th IEEE International Conference on Control and Automation, IEEE ICCA 2014 (pp. 1244-1246). Article 6871100 (IEEE International Conference on Control and Automation, ICCA). IEEE Computer Society. https://doi.org/10.1109/ICCA.2014.6871100

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title = "Near-infrared supercontinuum generation in conventional single mode fiber used in optical sensor",

abstract = "The near-infrared supercontinuum light was generated in a single mode optical fiber by the femtosecond pulses from an unamplified Ti:sapphire laser. The light source possesses properties of high repetition rate, peak power, and low optical damage, and thus can used for optical sensors. Supercontinuum generation is a complex nonlinear phenomenon that is characterized by the dramatic spectral broadening of intense light pulses passing through a nonlinear material. Special fibers, such as the fluoride fiber and tapered fiber, spanning over three octaves from UV to 3.85 m and over two octaves from 370∼1550 nm, respectively, are used to generate the supercontinuum. The spectra span more than an octave and retain the longitudinal mode structure of the mode-locked laser source, which recently led to spectacular advances in optical frequency metrology. In this study, a conventional single mode optical fiber with a cladding-free central section immobilized metal nanoparticles was used to generate the near-infrared supercontinuum light. The absorption spectrum of nanoparticals on the optical fiber can be measured by the homemade tunable near-infrared supercontinuum light source from the single mode fiber. It offers a simple and cost-effective method to generate a near-infrared light source to serve for spectral measurements and achieving the fiber-optic sensing.",

keywords = "absorption, biosensing, femtosecond pulse, fiber optics, supercontinuum generation",

author = "Huang, {Chen Han} and Lin, {Hsing Ying} and Fan, {Chien Hsiang} and Chui, {Hsiang Chen}",

year = "2014",

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Huang, CH, Lin, HY, Fan, CH & Chui, HC 2014, Near-infrared supercontinuum generation in conventional single mode fiber used in optical sensor. in 11th IEEE International Conference on Control and Automation, IEEE ICCA 2014., 6871100, IEEE International Conference on Control and Automation, ICCA, IEEE Computer Society, pp. 1244-1246, 11th IEEE International Conference on Control and Automation, IEEE ICCA 2014, Taichung, Taiwan, 18/06/14. https://doi.org/10.1109/ICCA.2014.6871100

Near-infrared supercontinuum generation in conventional single mode fiber used in optical sensor. / Huang, Chen Han; Lin, Hsing Ying; Fan, Chien Hsiang et al.
11th IEEE International Conference on Control and Automation, IEEE ICCA 2014. IEEE Computer Society, 2014. p. 1244-1246 6871100 (IEEE International Conference on Control and Automation, ICCA).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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N2 - The near-infrared supercontinuum light was generated in a single mode optical fiber by the femtosecond pulses from an unamplified Ti:sapphire laser. The light source possesses properties of high repetition rate, peak power, and low optical damage, and thus can used for optical sensors. Supercontinuum generation is a complex nonlinear phenomenon that is characterized by the dramatic spectral broadening of intense light pulses passing through a nonlinear material. Special fibers, such as the fluoride fiber and tapered fiber, spanning over three octaves from UV to 3.85 m and over two octaves from 370∼1550 nm, respectively, are used to generate the supercontinuum. The spectra span more than an octave and retain the longitudinal mode structure of the mode-locked laser source, which recently led to spectacular advances in optical frequency metrology. In this study, a conventional single mode optical fiber with a cladding-free central section immobilized metal nanoparticles was used to generate the near-infrared supercontinuum light. The absorption spectrum of nanoparticals on the optical fiber can be measured by the homemade tunable near-infrared supercontinuum light source from the single mode fiber. It offers a simple and cost-effective method to generate a near-infrared light source to serve for spectral measurements and achieving the fiber-optic sensing.

AB - The near-infrared supercontinuum light was generated in a single mode optical fiber by the femtosecond pulses from an unamplified Ti:sapphire laser. The light source possesses properties of high repetition rate, peak power, and low optical damage, and thus can used for optical sensors. Supercontinuum generation is a complex nonlinear phenomenon that is characterized by the dramatic spectral broadening of intense light pulses passing through a nonlinear material. Special fibers, such as the fluoride fiber and tapered fiber, spanning over three octaves from UV to 3.85 m and over two octaves from 370∼1550 nm, respectively, are used to generate the supercontinuum. The spectra span more than an octave and retain the longitudinal mode structure of the mode-locked laser source, which recently led to spectacular advances in optical frequency metrology. In this study, a conventional single mode optical fiber with a cladding-free central section immobilized metal nanoparticles was used to generate the near-infrared supercontinuum light. The absorption spectrum of nanoparticals on the optical fiber can be measured by the homemade tunable near-infrared supercontinuum light source from the single mode fiber. It offers a simple and cost-effective method to generate a near-infrared light source to serve for spectral measurements and achieving the fiber-optic sensing.

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PB - IEEE Computer Society

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Y2 - 18 June 2014 through 20 June 2014

ER -

Near-infrared supercontinuum generation in conventional single mode fiber used in optical sensor

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