Superluminiscent Er3+/Yb3+-doped fiber source design for 1550nm applications

G. G. Perez-Sanchez; E. Pinzon-Escobar; J. A. Alvarez-Chavez

doi:10.1117/12.928542

Superluminiscent Er³⁺/Yb³⁺-doped fiber source design for 1550nm applications

G. G. Perez-Sanchez, E. Pinzon-Escobar, J. A. Alvarez-Chavez

Centro de Investigación e Innovación Tecnológica (CIITEC)

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

1 Scopus citations

Abstract

We present results based on theoretical analysis on how fiber sources doped with Er³⁺ and Er³⁺/Yb³⁺ operate in the amplified spontaneous emission (ASE) regime. Results of the model such as pump response, output in the forward and backward directions along the length of the fiber and output efficiency are presented. After more development, these sources could be used in DWDM systems to generate a number of signals around the 1550nm window.

Original language	English
Title of host publication	Photonic Fiber and Crystal Devices
Subtitle of host publication	Advances in Materials and Innovations in Device Applications VI
DOIs	https://doi.org/10.1117/12.928542
State	Published - 2012
Event	Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications VI - San Diego, CA, United States Duration: 12 Aug 2012 → 13 Aug 2012

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	8497
ISSN (Print)	0277-786X

Conference

Conference	Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications VI
Country/Territory	United States
City	San Diego, CA
Period	12/08/12 → 13/08/12

Keywords

Ase sources
DWDM systems
Er/yb sources

Access to Document

10.1117/12.928542

Cite this

Perez-Sanchez, G. G., Pinzon-Escobar, E., & Alvarez-Chavez, J. A. (2012). Superluminiscent Er³⁺/Yb³⁺-doped fiber source design for 1550nm applications. In Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications VI Article 84970U (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 8497). https://doi.org/10.1117/12.928542

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title = "Superluminiscent Er3+/Yb3+-doped fiber source design for 1550nm applications",

abstract = "We present results based on theoretical analysis on how fiber sources doped with Er3+ and Er3+/Yb3+ operate in the amplified spontaneous emission (ASE) regime. Results of the model such as pump response, output in the forward and backward directions along the length of the fiber and output efficiency are presented. After more development, these sources could be used in DWDM systems to generate a number of signals around the 1550nm window.",

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Perez-Sanchez, GG, Pinzon-Escobar, E & Alvarez-Chavez, JA 2012, Superluminiscent Er³⁺/Yb³⁺-doped fiber source design for 1550nm applications. in Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications VI., 84970U, Proceedings of SPIE - The International Society for Optical Engineering, vol. 8497, Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications VI, San Diego, CA, United States, 12/08/12. https://doi.org/10.1117/12.928542

Superluminiscent Er³⁺/Yb³⁺-doped fiber source design for 1550nm applications. / Perez-Sanchez, G. G.; Pinzon-Escobar, E.; Alvarez-Chavez, J. A.
Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications VI. 2012. 84970U (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 8497).

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

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AB - We present results based on theoretical analysis on how fiber sources doped with Er3+ and Er3+/Yb3+ operate in the amplified spontaneous emission (ASE) regime. Results of the model such as pump response, output in the forward and backward directions along the length of the fiber and output efficiency are presented. After more development, these sources could be used in DWDM systems to generate a number of signals around the 1550nm window.

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