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Efficient, low noise grating-feedback fibre laser doped with Er3+:Yb3+

Efficient, low noise grating-feedback fibre laser doped with Er3+:Yb3+
Efficient, low noise grating-feedback fibre laser doped with Er3+:Yb3+
Single-frequency Er3+-doped Fabry-Perot fiber lasers using fiber-grating Bragg reflectors are emerging as interesting alternatives to distributed-feedback (DFB) diode lasers for use in future high-capacity wavelength-division multiplexed (WDM) communication systems. They are fiber compatible, scaleable to high output powers (>1W), and have low noise and kilohertz linewidths. Fiber lasers are only robustly single frequency provided that the laser length is reduced to a few centimeters to increase the axial mode spacing and the grating bandwidth is kept below approximately 0.2 nm. It is also necessary to keep the Er3+ concentration low to avoid a reduction in efficiency by ion-pair quenching, and this combination of factors means that the pump absorption in the laser length can be as low as a few percent. Hence the slope efficiency of these lasers is very low. It is possible to increase the output power by using the residual pump power to pump an erbium-doped fiber amplifier (EDFA) following the fiber laser. However, the presence of the amplifier amplified spontaneous emission (ASE) increases the output noise. In addition, it has been reported that these lasers are susceptible to strong self-pulsation.
26-27
Kringlebotn, J.T.
89b7e099-8b45-48a6-9a14-3b72602d9429
Archambault, J.L.
22245ae0-fbe9-4d25-a850-f3b38c78848a
Reekie, L.
ec314137-6924-44ad-86a4-ff3f9a67c1b5
Townsend, J.E.
a5a6f6ef-adb0-4072-8dcb-b6f5b5a47e64
Vienne, G.G.
22cbd5f5-9bfa-4a99-bb20-59d67332f160
Payne, D.N.
4f592b24-707f-456e-b2c6-8a6f750e296d
Kringlebotn, J.T.
89b7e099-8b45-48a6-9a14-3b72602d9429
Archambault, J.L.
22245ae0-fbe9-4d25-a850-f3b38c78848a
Reekie, L.
ec314137-6924-44ad-86a4-ff3f9a67c1b5
Townsend, J.E.
a5a6f6ef-adb0-4072-8dcb-b6f5b5a47e64
Vienne, G.G.
22cbd5f5-9bfa-4a99-bb20-59d67332f160
Payne, D.N.
4f592b24-707f-456e-b2c6-8a6f750e296d

Kringlebotn, J.T., Archambault, J.L., Reekie, L., Townsend, J.E., Vienne, G.G. and Payne, D.N. (1994) Efficient, low noise grating-feedback fibre laser doped with Er3+:Yb3+. Conference on Optical Fibre Communications (OFC '94), San Jose, United States. 20 - 24 Feb 1994. pp. 26-27 .

Record type: Conference or Workshop Item (Paper)

Abstract

Single-frequency Er3+-doped Fabry-Perot fiber lasers using fiber-grating Bragg reflectors are emerging as interesting alternatives to distributed-feedback (DFB) diode lasers for use in future high-capacity wavelength-division multiplexed (WDM) communication systems. They are fiber compatible, scaleable to high output powers (>1W), and have low noise and kilohertz linewidths. Fiber lasers are only robustly single frequency provided that the laser length is reduced to a few centimeters to increase the axial mode spacing and the grating bandwidth is kept below approximately 0.2 nm. It is also necessary to keep the Er3+ concentration low to avoid a reduction in efficiency by ion-pair quenching, and this combination of factors means that the pump absorption in the laser length can be as low as a few percent. Hence the slope efficiency of these lasers is very low. It is possible to increase the output power by using the residual pump power to pump an erbium-doped fiber amplifier (EDFA) following the fiber laser. However, the presence of the amplifier amplified spontaneous emission (ASE) increases the output noise. In addition, it has been reported that these lasers are susceptible to strong self-pulsation.

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Published date: 1994
Additional Information: Paper TuG5
Venue - Dates: Conference on Optical Fibre Communications (OFC '94), San Jose, United States, 1994-02-20 - 1994-02-24
Learn more about Optoelectronics Research Centre research

Identifiers

Local EPrints ID: 77167
URI: http://eprints.soton.ac.uk/id/eprint/77167
PURE UUID: 0bbe6787-94f0-4ca2-b8d3-3eab56dcd2a9

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Date deposited: 11 Mar 2010
Last modified: 13 Mar 2024 23:45

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Contributors

Author: J.T. Kringlebotn
Author: J.L. Archambault
Author: L. Reekie
Author: J.E. Townsend
Author: G.G. Vienne
Author: D.N. Payne

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