Sensing properties of Bragg grating in highly birefringent and single mode photonic crystal fiber

Tomasz Nasilowski; G. Statkiewicz; M. Szpulak; J. Olszewski; Tadeusz Martynkien; W. Urbanczyk; P. Mergo; M. Makara; J. Wojcik; Jurgen Van Erps; J. Vlekken; C. Chojetzki; Francis Berghmans; Hugo Thienpont

Sensing properties of Bragg grating in highly birefringent and single mode photonic crystal fiber

Tomasz Nasilowski, G. Statkiewicz, M. Szpulak, J. Olszewski, Tadeusz Martynkien, W. Urbanczyk, P. Mergo, M. Makara, J. Wojcik, Jurgen Van Erps, J. Vlekken, C. Chojetzki, Francis Berghmans, Hugo Thienpont

Applied Physics and Photonics

Research output: Chapter in Book/Report/Conference proceeding › Conference paper

1 Citation (Scopus)

Abstract

Microstructured fibers (MOF), also called photonic; crystal fibers (PCF), constitute a class of optical fibers, which has a large potential for number of novel applications either in the telecom or in the sensing domain. However, some of the applications require the use of specialty fibers with a doped core. We have made a preliminary exploration of PCF with doped regions and with inscribed Bragg gratings. The extensive study of the fiber cross-section structure in respect to possibilities of writing the Bragg gratings and the sensitivities of PCF Bragg gratings was our main concern.
Selective measurement of strain without temperature compensation is achieved with fiber Bragg gating (FBG) in highly birefringent (HB) PCF, since such grating is characterized by two reflection bands corresponding to the two polarization modes generated due to the fiber birefringence. The measurement range of such FBG in HB fiber sensor depends on how strong is the separation of the polarization modes, which is expressed as phase birefringence.

In next step, we have modeled, designed and fabricated specialty PCF with Ge doped core in such way that after writing the Bragg grating into the fiber we have obtained a sensors exhibiting low sensitivity to any temperature drifts. Traditional optical fiber sensors are not able to make such a distinction between stress and temperatures and require complex temperature compensation mechanisms.

Original language	English
Title of host publication	Proc. SPIE, 2007
Publisher	SPIE
Pages	5880
Number of pages	1
Volume	6588
ISBN (Print)	978-0-8194-6716-4
Publication status	Published - 2007
Event	Finds and Results from the Swedish Cyprus Expedition: A Gender Perspective at the Medelhavsmuseet - Stockholm, Sweden Duration: 21 Sept 2009 → 25 Sept 2009

Publication series

Name	Proc. SPIE, 2007

Conference

Conference	Finds and Results from the Swedish Cyprus Expedition: A Gender Perspective at the Medelhavsmuseet
Country/Territory	Sweden
City	Stockholm
Period	21/09/09 → 25/09/09

Keywords

MICROSTRUCTURED OPTICAL-FIBERS
LONG-PERIOD GRATINGS; TEMPERATURE; STRAIN

Cite this

Nasilowski, T., Statkiewicz, G., Szpulak, M., Olszewski, J., Martynkien, T., Urbanczyk, W., Mergo, P., Makara, M., Wojcik, J., Van Erps, J., Vlekken, J., Chojetzki, C., Berghmans, F., & Thienpont, H. (2007). Sensing properties of Bragg grating in highly birefringent and single mode photonic crystal fiber. In Proc. SPIE, 2007 (Vol. 6588, pp. 5880). (Proc. SPIE, 2007). SPIE.

@inproceedings{b3bf017b407e433295b99e9d48900442,

title = "Sensing properties of Bragg grating in highly birefringent and single mode photonic crystal fiber",

abstract = "Microstructured fibers (MOF), also called photonic; crystal fibers (PCF), constitute a class of optical fibers, which has a large potential for number of novel applications either in the telecom or in the sensing domain. However, some of the applications require the use of specialty fibers with a doped core. We have made a preliminary exploration of PCF with doped regions and with inscribed Bragg gratings. The extensive study of the fiber cross-section structure in respect to possibilities of writing the Bragg gratings and the sensitivities of PCF Bragg gratings was our main concern. Selective measurement of strain without temperature compensation is achieved with fiber Bragg gating (FBG) in highly birefringent (HB) PCF, since such grating is characterized by two reflection bands corresponding to the two polarization modes generated due to the fiber birefringence. The measurement range of such FBG in HB fiber sensor depends on how strong is the separation of the polarization modes, which is expressed as phase birefringence. In next step, we have modeled, designed and fabricated specialty PCF with Ge doped core in such way that after writing the Bragg grating into the fiber we have obtained a sensors exhibiting low sensitivity to any temperature drifts. Traditional optical fiber sensors are not able to make such a distinction between stress and temperatures and require complex temperature compensation mechanisms.",

keywords = "MICROSTRUCTURED OPTICAL-FIBERS, LONG-PERIOD GRATINGS; TEMPERATURE; STRAIN",

author = "Tomasz Nasilowski and G. Statkiewicz and M. Szpulak and J. Olszewski and Tadeusz Martynkien and W. Urbanczyk and P. Mergo and M. Makara and J. Wojcik and {Van Erps}, Jurgen and J. Vlekken and C. Chojetzki and Francis Berghmans and Hugo Thienpont",

year = "2007",

language = "English",

isbn = "978-0-8194-6716-4",

volume = "6588",

series = "Proc. SPIE, 2007",

publisher = "SPIE",

pages = "5880",

booktitle = "Proc. SPIE, 2007",

address = "United States",

note = "Finds and Results from the Swedish Cyprus Expedition: A Gender Perspective at the Medelhavsmuseet ; Conference date: 21-09-2009 Through 25-09-2009",

}

Nasilowski, T, Statkiewicz, G, Szpulak, M, Olszewski, J, Martynkien, T, Urbanczyk, W, Mergo, P, Makara, M, Wojcik, J, Van Erps, J, Vlekken, J, Chojetzki, C, Berghmans, F & Thienpont, H 2007, Sensing properties of Bragg grating in highly birefringent and single mode photonic crystal fiber. in Proc. SPIE, 2007. vol. 6588, Proc. SPIE, 2007, SPIE, pp. 5880, Finds and Results from the Swedish Cyprus Expedition: A Gender Perspective at the Medelhavsmuseet, Stockholm, Sweden, 21/09/09.

TY - GEN

T1 - Sensing properties of Bragg grating in highly birefringent and single mode photonic crystal fiber

AU - Nasilowski, Tomasz

AU - Statkiewicz, G.

AU - Szpulak, M.

AU - Olszewski, J.

AU - Martynkien, Tadeusz

AU - Urbanczyk, W.

AU - Mergo, P.

AU - Makara, M.

AU - Wojcik, J.

AU - Van Erps, Jurgen

AU - Vlekken, J.

AU - Chojetzki, C.

AU - Berghmans, Francis

AU - Thienpont, Hugo

PY - 2007

Y1 - 2007

N2 - Microstructured fibers (MOF), also called photonic; crystal fibers (PCF), constitute a class of optical fibers, which has a large potential for number of novel applications either in the telecom or in the sensing domain. However, some of the applications require the use of specialty fibers with a doped core. We have made a preliminary exploration of PCF with doped regions and with inscribed Bragg gratings. The extensive study of the fiber cross-section structure in respect to possibilities of writing the Bragg gratings and the sensitivities of PCF Bragg gratings was our main concern. Selective measurement of strain without temperature compensation is achieved with fiber Bragg gating (FBG) in highly birefringent (HB) PCF, since such grating is characterized by two reflection bands corresponding to the two polarization modes generated due to the fiber birefringence. The measurement range of such FBG in HB fiber sensor depends on how strong is the separation of the polarization modes, which is expressed as phase birefringence. In next step, we have modeled, designed and fabricated specialty PCF with Ge doped core in such way that after writing the Bragg grating into the fiber we have obtained a sensors exhibiting low sensitivity to any temperature drifts. Traditional optical fiber sensors are not able to make such a distinction between stress and temperatures and require complex temperature compensation mechanisms.

AB - Microstructured fibers (MOF), also called photonic; crystal fibers (PCF), constitute a class of optical fibers, which has a large potential for number of novel applications either in the telecom or in the sensing domain. However, some of the applications require the use of specialty fibers with a doped core. We have made a preliminary exploration of PCF with doped regions and with inscribed Bragg gratings. The extensive study of the fiber cross-section structure in respect to possibilities of writing the Bragg gratings and the sensitivities of PCF Bragg gratings was our main concern. Selective measurement of strain without temperature compensation is achieved with fiber Bragg gating (FBG) in highly birefringent (HB) PCF, since such grating is characterized by two reflection bands corresponding to the two polarization modes generated due to the fiber birefringence. The measurement range of such FBG in HB fiber sensor depends on how strong is the separation of the polarization modes, which is expressed as phase birefringence. In next step, we have modeled, designed and fabricated specialty PCF with Ge doped core in such way that after writing the Bragg grating into the fiber we have obtained a sensors exhibiting low sensitivity to any temperature drifts. Traditional optical fiber sensors are not able to make such a distinction between stress and temperatures and require complex temperature compensation mechanisms.

KW - MICROSTRUCTURED OPTICAL-FIBERS

KW - LONG-PERIOD GRATINGS; TEMPERATURE; STRAIN

M3 - Conference paper

SN - 978-0-8194-6716-4

VL - 6588

T3 - Proc. SPIE, 2007

SP - 5880

BT - Proc. SPIE, 2007

PB - SPIE

T2 - Finds and Results from the Swedish Cyprus Expedition: A Gender Perspective at the Medelhavsmuseet

Y2 - 21 September 2009 through 25 September 2009

ER -

Sensing properties of Bragg grating in highly birefringent and single mode photonic crystal fiber

Abstract

Publication series

Conference

Keywords

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