참고문헌
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Technical Digest of Conf. Optical Fibe-Comm.1997 (OFC'97)
$1.5 {\mu}m$ Broadband Amplification by Tellurite-Based EDFAs Mori, A.;Ohishi, Y.;Yamada, M.;Ono, H.;Nishida, Y.;Oikawa, K.;Sudo, S. -
Opt. Lett.
v.23
no.4
Gain Characteristics of Tellurite-Based Erbium-Doped Fiber Amplifiers for 1.5-
${\mu}m$ Broadband Amplification Ohishi, Y.;Mori, A.;Yamada, M.;Ono, H.;Nishida, Y.;Oikawa, K. - J. Lightwave Technol. v.9 Erbium-Doped Glasses for Fiber Amplifiers at 1500 nm Miniscalco, W.J.
- OSA TOPS v.25 980 nm-Pumped Er-Doped Tellurite-Based Fiber Amplifier Nakai, T.;Noda, Y.;Tani, T.;Mimura, Y.;Sudo, T.;Ohno, S.
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Phys. Rev. B
v.56
Spectroscopic Properties of
$Er^{3+}$ - and$Yb^{3+}$ -Doped Soda-Lime Silicate and Aluminosilicate Glasses Hehlen, M.P.;Cockroft, N.J.;Gosnell, T.R.;Bruce, A.J. - Handbook of Physics and Chemistry of Rare Earths Reisfeld, R.;Jorgensen, C.K.;Gschneidner, K.A. Jr.(ed.);Eyring, L.(ed.)
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J. Non-Cryst. Solids
v.162
Spectroscopic Properties of
$Er^{3+}$ - and$Yb^{3+}$ -Doped Soda-Lime Silicate and Aluminosilicate Glasses Zou, X.;Izumitani, T. - Appl. Opt. v.30 Output Saturation in a 980 nm Pumped Erbium-Doped Fiber Amplifier Quimby, R.S.
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Electron. Lett.
v.35
no.20
Enhanced
$^4I_{11/2}\;{\to}\;^4I_{13/2}$ Transition Rate in$Er^{3+}/Ce^{3+}$ -Codoped Tellurite Glasses Choi, Y.G.;Lim, D.S.;Kim, K.H.;Cho, D.H.;Lee, H.K. - Optical Materials v.3 Tellurite Glass: a New Candidate for Fiber Devices Wang, J.S.;Vogel, E.M.;Snitzer, E.
- J. Am. Ceram. Soc. v.65 Preparation and Properties of Heavy-Metal Fluoride Glasses Containing Ytterbium or Lutetium Drexhage, M.G.;El-Bayoumi, O.H.;Moynihan, C.T.;Bruce, A.J.;Chung, K.H.;Gavin, D.L.;Loretz, J.T.
- J. Non-Cryst. Solids v.52 Compositional Dependence of Nonradiative Decay Rate in Nd Laser Glasses Toratani, H.;Izumitani, T.;Kuroda, H.
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J. Lumin.
v.75
Optical Transitions of
$Er^{3+}$ in Lead-Tellurium-Germanate Glasses Pan, Z.;Morgan, S.H. - Phys. Rev. v.127 Optical Absorption Intensities of Rare Earth Ions Judd, B.R.
- J. Chem. Phys. v.37 Intensities of Crystal Spectra of Rare Earth Ions Ofelt, G.S.
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Phys. Rev.
v.157
Probabilities for Radiative and Nonradiative Decay of
$Er^{3+}$ in LaF3 Weber, M.J. -
Phys. Rev. B
v.27
Optical Transitions of
$Er^{3+}$ Ions in Fluorozirconate Glass Shinn, M.D.;Silbley, W.A.;Drexhage, M.G.;Brown, R.N. - Phys Rev. B v.8 no.1 Multiphonon Relaxation of Rare-Earth Ions in Yttrium Orthoaluminate Weber, M.J.
- Phys. Rev. B v.1 Photon Sidebands, Multiphonon Relaxation of Excited States, and Phonon-Assisted Energy Transfer between Ions in Solids Miyakawa, T.;Dcxter, D.L.
- Optical Fiber Amplifiers: Materials, Devices, and Applications Ohishi, Y.;Sudo, S.(ed.)
- Laser Crystals: Their Physics and Properties Kaminski , A.A.
- Erbium-Doped Fiber Amplifiers: Principles and Applications Dcsurvire, E.
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J. Non-Cryst. Solids
v.182
$Pr^{3+}$ -Doped Ge-Ga-S Glasses for 1.3${\mu}m$ Optical Fiber Amplifiers Wei, K.;Machewirth, D.P.;Wenzel, J.;Snitzer, E.;Sigel, G.H. Jr. - Phys. Rev. A v.134 Theory of Phonon-Terminated Optical Masers Mc Cumber, D.E.
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Opt. Lett.
v.16
General Procedure for the Analysis of
$Er^{3+}$ Cross-Sections Miniscalco, W.J.;Quimby, R.S. - Laser and Excited States of Rare Earths Reisfeld, R.;Jorgensen, C.K.
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Opt. Lett.
v.20
no.5
$Pr^{3+}$ -Doped GeSx-Based Glasses for Fiber Amplifiers at 1.3${\mu}m$ Simons, D.R.;Faber, A.J.;de Waal, H. -
ETRI J.
v.23
no.3
$Pr^{3+}$ - and$Pr^{3+}/Er^{3+}$ -Doped Selenide Glasses for Potential 1.6${\mu}m$ Optical Amplifier Materials Choi, Yong-Gyu;Park, Bong-Je;Kim, Kyong-Hon;Heo, Jong