참고문헌
- IEEE Photon. Technol. Lett. v.2 Spectral Dependence of Gain and Noise in Erbium-Doped Fiber Amplifiers Giles, C.R.;DiGiovanni, D.
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IEEE Photon. Technol. Lett.
v.6
Experimental lnvestigation of the Gain Flatness Characteristics for
$1.55 {\mu}m$ Erbium-Doped Fluoride Fiber Amplifiers Bayart, D.;Clesca, B.;Hamon, L.;Beylat, J.L. - IEEE Photon. Tech. Lett. v.5 A 100-channel Optical FDM Six-stage In-line Amplifier System Employing Tunable Gain Equalizer Toba, H.;Nakanishi, K.;Oda, K.;Inoue, K.;Kominato, T.
- Electron. Lett. v.32 Doped Fiber Length and Pump Power of Gain-Flattened EDFAs Park, S.Y.;Kim, H.K.;Park, C.S.;Shin, S.Y.
- IEEE Photon. Tech. Lett. v.6 Multiwavelength Propagation in Lightwave Systems with Strongly Inverted Fiber Amplifiers Goldstein, E.L.;Eskildsen, L.;Lin, C.;Tench, R.E.
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Electron. Lett.
v.30
$1.55 {\mu}m$ Fluoride-Based EDFA with Gain Flatness Control for Multiwavelength Applications Bayart, D.;Clesca, B.;Hamon, L.;Beylat, J.L. - Proc. of OFC'95 Optically Stabilized EDFA for In-Band WDM Systems Fake, M.;Simmons, T.J.;Massicott, J.;Wyatt, R.
- Proc. of ACOFT'96 Gain Flatness Control of the EDFA by Utilizing a Rejected Amplified Spontaneous Emission in the 1530 nm Region Kim, H.K.;Park, S.Y.;Lee, D.H.;Park, C.S.