RATE-EQUATION ANALYSIS OF A MULTIMODE BIPLORIZATION ND3+ DOPED FIBER LASER

Mears R.J., Reekie Poole S.B., Payne D.N., Neodymium-doped silica single-mode fibre lasers, Electron. Lett, 21, (1985)

Nikitin V.I., Soskin M.S., Khizhnyak A.I., New data on the internal structure of the 1.06 μmluminescence band of Nd3+ in silicate glass, Sov. Tech. Phys. Lett, 2, (1976)

Weber M.J., Paisner J.A., Sussman S.S., Yen W.M., Riseberg L.A., Brecher C., Spectroscopic studies of rare earth ions in glass using fluorescence line narrowing techniques, J. Lumin, 12, 13, (1976)

Nikitin V.I., Soskin M.S., Khizhnyak A.I., Influence of uncorrelated inhomogeneous broadening of the 1.06 μmband of the Nd3+ ions on laser properties of neodymium glasses, Sov J. Quantum Electron, 8, (1978)

Brawer S.A., Weber M.J., Observation of fluorescence line narrowing, hole burning, and ion-ion energy transfer in neodymium glass, Appl. Phys. Lett, 35, (1979)

Hall D.W., Weber M.J., Brudage R.T., Fluorescence line narrowing in neodymium laser glasses, J. Appl. Phys, 55, (1984)

Zuem M., Voigt J., Brinkmeyer E., Ulrich R., Poole S.B., Line narrowing and spectral hole burning in single-mode Nd3+_fibre lasers, Opt. Lett, 12, (1987)

Le Flohic M., Francois P.L., Allain J.Y., Sanchez F., Stephan G., Dynamics of Ehe transient buildup of emission in Nd3+-doped fibre lasers, IEEE J. Quantum Electron, QE-29, (1991)

Sabert H., Ulrich R., Spatial hole burning in Nd3+-fibre lasers suppressed by push-pull phase modulation Appl, Appl. Phys. Lett, 58, (1991)

Zyskind J.L., Mizrahi V., Digio Vanni D.J., Sulhoff J.W., Short single frequency erbium doped fibre laser, Electron. Lett, 28, (1992)

Mears R.J., Reekie Poole S.B., Payne D.N., Neodymium-doped silica single-mode fibre lasers, Electron. Lett, 21, (1985)

Nikitin V.I., Soskin M.S., Khizhnyak A.I., New data on the internal structure of the 1.06 μmluminescence band of Nd3+ in silicate glass, Sov. Tech. Phys. Lett, 2, (1976)

Weber M.J., Paisner J.A., Sussman S.S., Yen W.M., Riseberg L.A., Brecher C., Spectroscopic studies of rare earth ions in glass using fluorescence line narrowing techniques, J. Lumin, 12, 13, (1976)

Nikitin V.I., Soskin M.S., Khizhnyak A.I., Influence of uncorrelated inhomogeneous broadening of the 1.06 μmband of the Nd3+ ions on laser properties of neodymium glasses, Sov J. Quantum Electron, 8, (1978)

Brawer S.A., Weber M.J., Observation of fluorescence line narrowing, hole burning, and ion-ion energy transfer in neodymium glass, Appl. Phys. Lett, 35, (1979)

Hall D.W., Weber M.J., Brudage R.T., Fluorescence line narrowing in neodymium laser glasses, J. Appl. Phys, 55, (1984)

Zuem M., Voigt J., Brinkmeyer E., Ulrich R., Poole S.B., Line narrowing and spectral hole burning in single-mode Nd3+_fibre lasers, Opt. Lett, 12, (1987)

Le Flohic M., Francois P.L., Allain J.Y., Sanchez F., Stephan G., Dynamics of Ehe transient buildup of emission in Nd3+-doped fibre lasers, IEEE J. Quantum Electron, QE-29, (1991)

Sabert H., Ulrich R., Spatial hole burning in Nd3+-fibre lasers suppressed by push-pull phase modulation Appl, Appl. Phys. Lett, 58, (1991)

Zyskind J.L., Mizrahi V., Digio Vanni D.J., Sulhoff J.W., Short single frequency erbium doped fibre laser, Electron. Lett, 28, (1992)