Erbium‐doped fiber amplifiers: principles and applications E Desurvire, MN Zervas Physics Today 48 (2), 56-58, 1995 | 3348 | 1995 |
Modeling erbium-doped fiber amplifiers CR Giles, E Desurvire Journal of lightwave technology 9 (2), 271-283, 1991 | 1721 | 1991 |
High-gain erbium-doped traveling-wave fiber amplifier E Desurvire, JR Simpson, PC Becker Optics letters 12 (11), 888-890, 1987 | 1031 | 1987 |
Amplification of spontaneous emission in erbium-doped single-mode fibers E Desurvire, JR Simpson Journal of lightwave technology 7 (5), 835-845, 1989 | 462 | 1989 |
Principles and Applications E Desurvire, EDF Amplifiers Wiley, New York, 1994 | 437 | 1994 |
Propagation of signal and noise in concatenated erbium-doped fiber optical amplifiers CR Giles, E Desurvire Journal of lightwave technology 9 (2), 147-154, 1991 | 392 | 1991 |
Capacity demand and technology challenges for lightwave systems in the next two decades EB Desurvire Journal of Lightwave Technology 24 (12), 4697-4710, 2006 | 348 | 2006 |
Transient gain and cross talk in erbium-doped fiber amplifiers CR Giles, E Desurvire, JR Simpson Optics Letters 14 (16), 880-882, 1989 | 246 | 1989 |
Gain saturation effects in high-speed, multichannel erbium-doped fiber amplifiers at lambda= 1.53 mu m E Desurvire, CR Giles, JR Simpson Journal of lightwave technology 7 (12), 2095-2104, 1989 | 230 | 1989 |
Spectral gain hole-burning at 1.53 mu m in erbium-doped fiber amplifiers E Desurvire, JL Zyskind, JR Simpson IEEE Photonics Technology Letters 2 (4), 246-248, 1990 | 206 | 1990 |
Classical and quantum information theory: an introduction for the telecom scientist E Desurvire Cambridge university press, 2009 | 200 | 2009 |
Study of the complex atomic susceptibility of erbium-doped fiber amplifiers E Desurvire Journal of Lightwave Technology 8 (10), 1517-1527, 1990 | 198 | 1990 |
Evaluation of 4I15/2 and 4I13/2 Stark-level energies in erbium-doped aluminosilicate glass fibers E Desurvire, JR Simpson Optics letters 15 (10), 547-549, 1990 | 194 | 1990 |
The golden age of optical fiber amplifiers E Desurvire Physics Today 47 (1), 20-27, 1994 | 168 | 1994 |
Analysis of transient gain saturation and recovery in erbium-doped fiber amplifiers E Desurvire IEEE Photonics Technology Letters 1 (8), 196-199, 1989 | 147 | 1989 |
Design optimization for efficient erbium-doped fiber amplifiers E Desurvire, JL Zyskind, CR Giles Journal of lightwave technology 8 (11), 1730-1741, 1990 | 143 | 1990 |
All-optical fiber signal processing and regeneration for soliton communications S Bigo, O Leclerc, E Desurvire IEEE Journal of Selected Topics in Quantum Electronics 3 (5), 1208-1223, 1997 | 129 | 1997 |
Efficient erbium-doped fiber amplifier at a 1.53-μm wavelength with a high output saturation power E Desurvire, CR Giles, JR Simpson, JL Zyskind Optics letters 14 (22), 1266-1268, 1989 | 111 | 1989 |
Study of spectral dependence of gain saturation and effect of inhomogeneous broadening in erbium-doped aluminosilicate fiber amplifiers E Desurvire, JW Sulhoff, JL Zyskind, JR Simpson IEEE photonics technology letters 2 (9), 653-655, 1990 | 100 | 1990 |
Noise performance of erbium-doped fiber amplifier pumped at 1.49 mu m, and application to signal preamplification at 1.8 Gbit/s CR Giles, E Desurvire, JL Zyskind, JR Simpson IEEE photonics technology letters 1 (11), 367-369, 1989 | 93 | 1989 |