2-μm optical time domain reflectometry measurements from novel Al-, Ge-, CaAlSi-doped and standard single-mode fibers

J. C. Rodriguez-Novelo; J. A. Sanchez-Nieves; A. Sierra-Calderon; R. Sanchez-Lara; J. A. Alvarez-Chavez

doi:10.1117/12.2272277

2-μm optical time domain reflectometry measurements from novel Al-, Ge-, CaAlSi-doped and standard single-mode fibers

J. C. Rodriguez-Novelo, J. A. Sanchez-Nieves, A. Sierra-Calderon, R. Sanchez-Lara, J. A. Alvarez-Chavez

Centro de Investigación e Innovación Tecnológica (CIITEC)

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Resumen

The development of novel Al-, Ge-doped and un-doped standard single mode fibers for future optical communication at 2μm requires the integration of, among other pieces of equipment, an optical time domain reflectometry (OTDR) technique for precise spectral attenuation characterization, including the well-known cut-back method. The integration of a state of the art OTDR at 2μm could provide valuable attenuation information from the aforementioned novel fibers. The proposed setup consists of a 1.7 mW, 1960nm pump source, a 30 dB gain Thulium doped fibre amplifier at 2μm, an 0.8mm focal length lens with a 0.5 NA, a 30 MHz acusto-optic modulator, a 3.1 focal length lens with a 0.68NA, an optical circulator at 2μm, an InGaAs photodetector for 1.2 nm-2.6 nm range, a voltage amplifier and an oscilloscope. The propagated pulse rate is 50 KHz, with 500 ns, 200 ns, 100 ns and 50 ns pulse widths. Attenuation versus novel fibers types for lengths ranging from 400-to 1000-meter samples were obtained using the proposed setup.

Idioma original	Inglés
Título de la publicación alojada	Optomechanical Engineering 2017
Editores	David M. Stubbs, Alson E. Hatheway
Editorial	SPIE
ISBN (versión digital)	9781510611993
DOI	https://doi.org/10.1117/12.2272277
Estado	Publicada - 2017
Evento	Optomechanical Engineering 2017 - San Diego, Estados Unidos Duración: 9 ago. 2017 → 10 ago. 2017

Serie de la publicación

Nombre	Proceedings of SPIE - The International Society for Optical Engineering
Volumen	10371
ISSN (versión impresa)	0277-786X
ISSN (versión digital)	1996-756X

Conferencia

Conferencia	Optomechanical Engineering 2017
País/Territorio	Estados Unidos
Ciudad	San Diego
Período	9/08/17 → 10/08/17

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Rodriguez-Novelo, J. C., Sanchez-Nieves, J. A., Sierra-Calderon, A., Sanchez-Lara, R., & Alvarez-Chavez, J. A. (2017). 2-μm optical time domain reflectometry measurements from novel Al-, Ge-, CaAlSi-doped and standard single-mode fibers. En D. M. Stubbs, & A. E. Hatheway (Eds.), Optomechanical Engineering 2017 Artículo 1037105 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10371). SPIE. https://doi.org/10.1117/12.2272277

@inproceedings{5026b55625cb4dba9967c472631555f8,

title = "2-μm optical time domain reflectometry measurements from novel Al-, Ge-, CaAlSi-doped and standard single-mode fibers",

abstract = "The development of novel Al-, Ge-doped and un-doped standard single mode fibers for future optical communication at 2μm requires the integration of, among other pieces of equipment, an optical time domain reflectometry (OTDR) technique for precise spectral attenuation characterization, including the well-known cut-back method. The integration of a state of the art OTDR at 2μm could provide valuable attenuation information from the aforementioned novel fibers. The proposed setup consists of a 1.7 mW, 1960nm pump source, a 30 dB gain Thulium doped fibre amplifier at 2μm, an 0.8mm focal length lens with a 0.5 NA, a 30 MHz acusto-optic modulator, a 3.1 focal length lens with a 0.68NA, an optical circulator at 2μm, an InGaAs photodetector for 1.2 nm-2.6 nm range, a voltage amplifier and an oscilloscope. The propagated pulse rate is 50 KHz, with 500 ns, 200 ns, 100 ns and 50 ns pulse widths. Attenuation versus novel fibers types for lengths ranging from 400-to 1000-meter samples were obtained using the proposed setup.",

keywords = "2{\`i}m Telecomm window, Optical time-domain reflectometry, Thulium doped fiber amplifier, attenuation, cut-back technique",

author = "Rodriguez-Novelo, {J. C.} and Sanchez-Nieves, {J. A.} and A. Sierra-Calderon and R. Sanchez-Lara and Alvarez-Chavez, {J. A.}",

note = "Publisher Copyright: {\textcopyright} 2017 SPIE.; Optomechanical Engineering 2017 ; Conference date: 09-08-2017 Through 10-08-2017",

year = "2017",

doi = "10.1117/12.2272277",

language = "Ingl{\'e}s",

series = "Proceedings of SPIE - The International Society for Optical Engineering",

publisher = "SPIE",

editor = "Stubbs, {David M.} and Hatheway, {Alson E.}",

booktitle = "Optomechanical Engineering 2017",

address = "Estados Unidos",

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Rodriguez-Novelo, JC, Sanchez-Nieves, JA, Sierra-Calderon, A, Sanchez-Lara, R & Alvarez-Chavez, JA 2017, 2-μm optical time domain reflectometry measurements from novel Al-, Ge-, CaAlSi-doped and standard single-mode fibers. En DM Stubbs & AE Hatheway (eds.), Optomechanical Engineering 2017., 1037105, Proceedings of SPIE - The International Society for Optical Engineering, vol. 10371, SPIE, Optomechanical Engineering 2017, San Diego, Estados Unidos, 9/08/17. https://doi.org/10.1117/12.2272277

2-μm optical time domain reflectometry measurements from novel Al-, Ge-, CaAlSi-doped and standard single-mode fibers. / Rodriguez-Novelo, J. C.; Sanchez-Nieves, J. A.; Sierra-Calderon, A. et al.
Optomechanical Engineering 2017. ed. / David M. Stubbs; Alson E. Hatheway. SPIE, 2017. 1037105 (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10371).

Producción científica: Capítulo del libro/informe/acta de congreso › Contribución a la conferencia › revisión exhaustiva

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T1 - 2-μm optical time domain reflectometry measurements from novel Al-, Ge-, CaAlSi-doped and standard single-mode fibers

AU - Rodriguez-Novelo, J. C.

AU - Sanchez-Nieves, J. A.

AU - Sierra-Calderon, A.

AU - Sanchez-Lara, R.

AU - Alvarez-Chavez, J. A.

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AB - The development of novel Al-, Ge-doped and un-doped standard single mode fibers for future optical communication at 2μm requires the integration of, among other pieces of equipment, an optical time domain reflectometry (OTDR) technique for precise spectral attenuation characterization, including the well-known cut-back method. The integration of a state of the art OTDR at 2μm could provide valuable attenuation information from the aforementioned novel fibers. The proposed setup consists of a 1.7 mW, 1960nm pump source, a 30 dB gain Thulium doped fibre amplifier at 2μm, an 0.8mm focal length lens with a 0.5 NA, a 30 MHz acusto-optic modulator, a 3.1 focal length lens with a 0.68NA, an optical circulator at 2μm, an InGaAs photodetector for 1.2 nm-2.6 nm range, a voltage amplifier and an oscilloscope. The propagated pulse rate is 50 KHz, with 500 ns, 200 ns, 100 ns and 50 ns pulse widths. Attenuation versus novel fibers types for lengths ranging from 400-to 1000-meter samples were obtained using the proposed setup.

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KW - attenuation

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M3 - Contribución a la conferencia

AN - SCOPUS:85040052033

T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - Optomechanical Engineering 2017

A2 - Stubbs, David M.

A2 - Hatheway, Alson E.

PB - SPIE

T2 - Optomechanical Engineering 2017

Y2 - 9 August 2017 through 10 August 2017

ER -

Rodriguez-Novelo JC, Sanchez-Nieves JA, Sierra-Calderon A, Sanchez-Lara R, Alvarez-Chavez JA. 2-μm optical time domain reflectometry measurements from novel Al-, Ge-, CaAlSi-doped and standard single-mode fibers. En Stubbs DM, Hatheway AE, editores, Optomechanical Engineering 2017. SPIE. 2017. 1037105. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.2272277

2-μm optical time domain reflectometry measurements from novel Al-, Ge-, CaAlSi-doped and standard single-mode fibers

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