Optimized Dual-Stokes Raman Laser for 1.1 µm Emission and Temperature Sensing

Optimized Dual-Stokes Raman Laser for 1.1 µm Emission and Temperature Sensing

This work experimentally validates an improved Raman fiber laser, developed through cascade core variation splicing of optical fibers and the integration of fiber Bragg gratings. A continuous-wave Yb-doped fiber laser was used as the pump source, delivering up to 10 W at 1064 nm. The first Stokes em...

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Bibliographic Details
Main Authors: Jesus Alberto Coba-Ramos, Lelio de la Cruz May, Angeles Yolanda Pages-Pacheco, Efrain Mejia-Beltran, Daniel Jauregui-Vazquez, Manuel May-Alarcon, Rafael Sanchez-Lara, Jose Alfredo Alvarez Chavez
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Photonics
Subjects:
Raman fiber laser
Stokes emission
temperature fiber laser sensor
fiber Bragg grating
Online Access:https://www.mdpi.com/2304-6732/12/5/470
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Summary:This work experimentally validates an improved Raman fiber laser, developed through cascade core variation splicing of optical fibers and the integration of fiber Bragg gratings. A continuous-wave Yb-doped fiber laser was used as the pump source, delivering up to 10 W at 1064 nm. The first Stokes emission generates laser output centered at 1119 nm, while the second Stokes emission produces a lasing mode at 1179 nm. Fiber Bragg gratings control these emissions. Furthermore, both Stokes laser emissions can be tuned by applying temperature changes, achieving a 15.07 pm/°C sensitivity. The proposed laser presents a compact and practical solution for remote temperature sensing applications using fiber lasers.
ISSN:2304-6732

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