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Items: 1 to 20 of 101

1.

Black-box model for the complete characterization of the spectral gain and noise in semiconductor optical amplifiers.

Gallep C, Rieznik A, Fragnito H, Frateschi N, Conforti E.

Opt Express. 2006 Feb 20;14(4):1626-31.

PMID:
19503490
2.

Static gain saturation in quantum dot semiconductor optical amplifiers.

Meuer C, Kim J, Laemmlin M, Liebich S, Capua A, Eisenstein G, Kovsh AR, Mikhrin SS, Krestnikov IL, Bimberg D.

Opt Express. 2008 May 26;16(11):8269-79.

PMID:
18545539
3.

Spectral broadening in ultrafast semiconductor optical amplifiers induced by gain dynamics and self-phase modulation.

Baveja PP, Maywar DN, Kaplan AM, Agrawal GP.

Opt Lett. 2010 Feb 1;35(3):294-6. doi: 10.1364/OL.35.000294.

PMID:
20125699
4.

On the correct modeling of semiconductor optical amplifier RIN and phase noise for optical phase shift keyed communication systems.

Janer CL, Connelly MJ.

Opt Express. 2010 Dec 20;18(26):27455-67. doi: 10.1364/OE.18.027455.

PMID:
21197021
5.

Time-domain models for the performance simulation of semiconductor optical amplifiers.

Park J, Kawakami Y.

Opt Express. 2006 Apr 3;14(7):2956-68.

PMID:
19516435
6.
7.

Analysis of the dimensional dependence of semiconductor optical amplifier recovery speeds.

Giller R, Manning RJ, Talli G, Webb RP, Adams MJ.

Opt Express. 2007 Feb 19;15(4):1773-82.

PMID:
19532415
8.

Figures of merit for microwave photonic phase shifters based on semiconductor optical amplifiers.

Sancho J, Lloret J, Gasulla I, Sales S, Capmany J.

Opt Express. 2012 May 7;20(10):10519-25. doi: 10.1364/OE.20.010519.

PMID:
22565677
9.

Theory of noise in high-gain surface plasmon-polariton amplifiers incorporating dipolar gain media.

De Leon I, Berini P.

Opt Express. 2011 Oct 10;19(21):20506-17. doi: 10.1364/OE.19.020506.

PMID:
21997058
10.

Noise properties of nonlinear semiconductor optical amplifiers.

Shtaif M, Eisenstein G.

Opt Lett. 1996 Nov 15;21(22):1851-3.

PMID:
19881823
12.

Experimental and theoretical investigation of the impact of ultra-fast carrier dynamics on high-speed SOA-based all-optical switches.

Nielsen ML, Mørk J, Suzuki R, Sakaguchi J, Ueno Y.

Opt Express. 2006 Jan 9;14(1):331-47.

PMID:
19503347
13.
14.
15.

Variable optical delay using population oscillation and four-wave-mixing in semiconductor optical amplifiers.

Su H, Kondratko P, Chuang SL.

Opt Express. 2006 May 29;14(11):4800-7.

PMID:
19516637
16.

Numerical model of wavelength conversion through cross-gain modulation in semiconductor optical amplifiers.

Wang DX, Buck JA, Brennan K, Ferguson I.

Appl Opt. 2006 Jul 1;45(19):4701-8.

PMID:
16799685
17.

Improved optical single-sideband generation using the self-modulation birefringence difference in semiconductor optical amplifiers.

Jiang H, Wen H, Zheng X, Liu Z, Wang K, Zhang H, Guo Y.

Opt Lett. 2007 Sep 1;32(17):2580-2.

PMID:
17767311
18.

Dynamic saturation in Semiconductor Optical Amplifiers: accurate model, role of carrier density, and slow light.

Berger P, Alouini M, Bourderionnet J, Bretenaker F, Dolfi D.

Opt Express. 2010 Jan 18;18(2):685-93. doi: 10.1364/OE.18.000685.

PMID:
20173888
19.

Simplified ASE correction algorithm for variable gain-flattened erbium-doped fiber amplifier.

Mahdi MA, Sheih SJ, Adikan FR.

Opt Express. 2009 Jun 8;17(12):10069-75.

PMID:
19506658
20.

Intermodulation and harmonic distortion in slow light Microwave Photonic phase shifters based on Coherent Population Oscillations in SOAs.

Gasulla I, Sancho J, Capmany J, Lloret J, Sales S.

Opt Express. 2010 Dec 6;18(25):25677-92. doi: 10.1364/OE.18.025677.

PMID:
21164914

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