Vector bending sensors based on fibre Bragg gratings inscribed by infrared femtosecond laser

Amós Martínez; Yicheng Lai; Mykhaylo Dubov; Igor Khrushchev; Ian Bennion

doi:10.1049/el:20058278

Vector bending sensors based on fibre Bragg gratings inscribed by infrared femtosecond laser

Amós Martínez, Yicheng Lai, Mykhaylo Dubov, Igor Khrushchev, Ian Bennion

Aston Institute of Photonic Technologies (AiPT)

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

Abstract

A novel, direction-sensitive bending sensor based on an asymmetric fiber Bragg grating (FBG) inscribed by an infrared femtosecond laser was demonstrated. The technique is based on tight transverse confinement of the femto-inscribed structures and can be directly applied in conventional, untreated singlemode fibers. The FBG structure was inscribed by an amplified, titanium sapphire laser system. The grating cross-section was elongated along the direction of the laser beam with the transverse dimensions of approximately 1 by 2 μm. It was suggested that the sensitivity of the device can be improved by inscribing smaller spatial features and by implementing more complex grating designs aimed at maximizing the effect of strain.

Original language	English
Pages (from-to)	472-474
Number of pages	3
Journal	Electronics letters
Volume	41
Issue number	8
DOIs	https://doi.org/10.1049/el:20058278
Publication status	Published - 14 Apr 2005

Keywords

approximation theory
computational complexity
fabrication
fiber Bragg gratings
infrared devices
photosensitivity
ultraviolet radiation
cross-section
directional bending sensitivity
femtosecond laser
flat-clad fiber

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10.1049/el:20058278

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title = "Vector bending sensors based on fibre Bragg gratings inscribed by infrared femtosecond laser",

abstract = "A novel, direction-sensitive bending sensor based on an asymmetric fiber Bragg grating (FBG) inscribed by an infrared femtosecond laser was demonstrated. The technique is based on tight transverse confinement of the femto-inscribed structures and can be directly applied in conventional, untreated singlemode fibers. The FBG structure was inscribed by an amplified, titanium sapphire laser system. The grating cross-section was elongated along the direction of the laser beam with the transverse dimensions of approximately 1 by 2 μm. It was suggested that the sensitivity of the device can be improved by inscribing smaller spatial features and by implementing more complex grating designs aimed at maximizing the effect of strain.",

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doi = "10.1049/el:20058278",

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T1 - Vector bending sensors based on fibre Bragg gratings inscribed by infrared femtosecond laser

AU - Martínez, Amós

AU - Lai, Yicheng

AU - Dubov, Mykhaylo

AU - Khrushchev, Igor

AU - Bennion, Ian

PY - 2005/4/14

Y1 - 2005/4/14

N2 - A novel, direction-sensitive bending sensor based on an asymmetric fiber Bragg grating (FBG) inscribed by an infrared femtosecond laser was demonstrated. The technique is based on tight transverse confinement of the femto-inscribed structures and can be directly applied in conventional, untreated singlemode fibers. The FBG structure was inscribed by an amplified, titanium sapphire laser system. The grating cross-section was elongated along the direction of the laser beam with the transverse dimensions of approximately 1 by 2 μm. It was suggested that the sensitivity of the device can be improved by inscribing smaller spatial features and by implementing more complex grating designs aimed at maximizing the effect of strain.

AB - A novel, direction-sensitive bending sensor based on an asymmetric fiber Bragg grating (FBG) inscribed by an infrared femtosecond laser was demonstrated. The technique is based on tight transverse confinement of the femto-inscribed structures and can be directly applied in conventional, untreated singlemode fibers. The FBG structure was inscribed by an amplified, titanium sapphire laser system. The grating cross-section was elongated along the direction of the laser beam with the transverse dimensions of approximately 1 by 2 μm. It was suggested that the sensitivity of the device can be improved by inscribing smaller spatial features and by implementing more complex grating designs aimed at maximizing the effect of strain.

KW - approximation theory

KW - computational complexity

KW - fabrication

KW - fiber Bragg gratings

KW - infrared devices

KW - photosensitivity

KW - ultraviolet radiation

KW - cross-section

KW - directional bending sensitivity

KW - femtosecond laser

KW - flat-clad fiber

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SP - 472

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JO - Electronics letters

JF - Electronics letters

IS - 8

ER -

Vector bending sensors based on fibre Bragg gratings inscribed by infrared femtosecond laser

Abstract

Keywords

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