Erbium-doped fiber laser tuning using two cascaded unbalanced Mach-Zehnder interferometers as intracavity filter: numerical analysis and experimental confirmation
We propose a new method for tuning an Er/sup 3+/-doped continuous-wave fiber-ring laser. We present a novel numerical model and confirm the model with experimental results. The numerical model relies on the implementation of the analytical solution of signal propagation over small (elemental) segmen...
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| Published in | Journal of lightwave technology Vol. 19; no. 6; pp. 893 - 898 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
IEEE
01.06.2001
Institute of Electrical and Electronics Engineers The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | We propose a new method for tuning an Er/sup 3+/-doped continuous-wave fiber-ring laser. We present a novel numerical model and confirm the model with experimental results. The numerical model relies on the implementation of the analytical solution of signal propagation over small (elemental) segments of amplifier fiber rather than using the usual Runge-Kutta algorithm. The validity of the model is verified by the good agreement between computer results and experimental data. Experiments demonstrating a 11.2-nm wavelength tuning range have been conducted using an electrooptic intracavity filter composed of two cascaded unbalanced Mach-Zehnder interferometers (MZIs) integrated in lithium niobate. The numerical analysis shows that the tuning range obtained is limited by the combination of gain shape and filter characteristics. Increased tuning range can be obtained by decreasing losses or by using a more selective filter. |
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| AbstractList | We propose a new method for tuning an Er super(3+)-doped continuous-wave fiber-ring laser. We present a novel numerical model and confirm the model with experimental results. The numerical model relies on the implementation of the analytical solution of signal propagation over small (elemental) segments of amplifier fiber rather than using the usual Runge-Kutta algorithm. The validity of the model is verified by the good agreement between computer results and experimental data. Experiments demonstrating a 11.2-nm wavelength tuning range have been conducted using an electrooptic intracavity filter composed of two cascaded unbalanced Mach-Zehnder interferometers (MZIs) integrated in lithium niobate. The numerical analysis shows that the tuning range obtained is limited by the combination of gain shape and filter characteristics. Increased tuning range can be obtained by decreasing losses or by using a more selective filter We propose a new method for tuning an Er super(3+) -doped continuous-wave fiber-ring laser. We present a novel numerical model and confirm the model with experimental results. The numerical model relies on the implementation of the analytical solution of signal propagation over small (elemental) segments of amplifier fiber rather than using the usual Runge-Kutta algorithm. The validity of the model is verified by the good agreement between computer results and experimental data. Experiments demonstrating a 11.2-nm wavelength tuning range have been conducted using an electrooptic intracavity filter composed of two cascaded unbalanced Mach-Zehnder interferometers (MZIs) integrated in lithium niobate. The numerical analysis shows that the tuning range obtained is limited by the combination of gain shape and filter characteristics. Increased tuning range can be obtained by decreasing losses or by using a more selective filter. We propose a new method for tuning an Er/sup 3+/-doped continuous-wave fiber-ring laser. We present a novel numerical model and confirm the model with experimental results. The numerical model relies on the implementation of the analytical solution of signal propagation over small (elemental) segments of amplifier fiber rather than using the usual Runge-Kutta algorithm. The validity of the model is verified by the good agreement between computer results and experimental data. Experiments demonstrating a 11.2-nm wavelength tuning range have been conducted using an electrooptic intracavity filter composed of two cascaded unbalanced Mach-Zehnder interferometers (MZIs) integrated in lithium niobate. The numerical analysis shows that the tuning range obtained is limited by the combination of gain shape and filter characteristics. Increased tuning range can be obtained by decreasing losses or by using a more selective filter. We propose a new method for tuning an Er(3 )-doped continuous-wave fiber-ring laser. We present a novel numerical model and confirm the model with experimental results. The numerical model relies on the implementation of the analytical solution of signal propagation over small (elemental) segments of amplifier fiber rather than using the usual Runge-Kutta algorithm. The validity of the model is verified by the good agreement between computer results and experimental data. Experiments demonstrating a 11.2-nm wavelength tuning range have been conducted using an electrooptic intracavity filter composed of two cascaded unbalanced Mach-Zehnder interferometers (MZIs) integrated in lithium niobate. The numerical analysis shows that the tuning range obtained is limited by the combination of gain shape and filter characteristics. Increased tuning range can be obtained by decreasing losses or by using a more selective filter |
| Author | Rhodes, W.T. Goedgebuer, J.-P. Mollier, P. Calvez, S. Rejeaunier, X. |
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| Cites_doi | 10.1049/ip-opt:19981560 10.1364/OL.19.001979 10.1109/68.508720 10.1016/S0030-4018(97)00224-1 10.1088/0963-9659/7/1/010 10.1006/ofte.1999.0321 10.1016/S0030-4018(98)00432-5 10.1364/OL.16.000387 10.1364/OL.15.000273 10.1006/ofte.1997.0235 10.1109/50.548151 |
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| Keywords | Optical filters Mach-Zehnder interferometers Numerical analysis Cascade networks Ring lasers Fiber amplifier Runge-Kutta methods Laser tuning Experimental study Intracavity Fiber lasers |
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| Snippet | We propose a new method for tuning an Er/sup 3+/-doped continuous-wave fiber-ring laser. We present a novel numerical model and confirm the model with... We propose a new method for tuning an Er super(3+)-doped continuous-wave fiber-ring laser. We present a novel numerical model and confirm the model with... We propose a new method for tuning an Er super(3+) -doped continuous-wave fiber-ring laser. We present a novel numerical model and confirm the model with... We propose a new method for tuning an Er(3 )-doped continuous-wave fiber-ring laser. We present a novel numerical model and confirm the model with experimental... |
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| SubjectTerms | Algorithm design and analysis Algorithms Continuous fibers Erbium Erbium-doped fiber lasers Exact sciences and technology Fiber lasers Filters Fundamental areas of phenomenology (including applications) Laser modes Laser tuning Lasers Lithium niobates Mach-Zehnder interferometers Mathematical models Numerical analysis Numerical models Optical propagation Optics Physics Quantum cascade lasers Runge-Kutta method Signal analysis Tuning |
| Title | Erbium-doped fiber laser tuning using two cascaded unbalanced Mach-Zehnder interferometers as intracavity filter: numerical analysis and experimental confirmation |
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