M. Laemmlin scite author profile

Gain and phase dynamics in InAs/GaAs quantum dot semiconductor optical amplifiers are investigated. It is shown that gain recovery is dominated by fast processes, whereas phase recovery is dominated by slow processes. Relative strengths and time constants of the underlying processes are measured. We find that operation at high bias currents optimizes the performance for nonlinear cross-gain signal processing if a low chirp is required.

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Feedback sensitivity of 1.3 µm InAs/GaAs quantum dot lasers

O’Brien

et al. 2003

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Complete ground state gain recovery after ultrashort double pulses in quantum dot based semiconductor optical amplifier

Dommers

Temnov

Woggon

et al. 2007

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Gain recovery dynamics are studied in electrically pumped quantum dot (QD) based semiconductor optical amplifiers (SOAs) after amplification of double femtosecond laser pulses using ultrafast pump-probe spectroscopy with heterodyne detection. The authors observe a distinct change in gain recovery in the ground state when a significant excited state population is achieved. A complete gain recovery is found when two 150fs pulses with 5ps time delay pass through the SOA in resonance to the ground state under high injection currents of 80–100mA. The obtained results open the way for ultrafast (>200GHz) operation in p-doped QD based SOAs at 1.3μm telecommunications wavelengths.

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Static Gain Saturation Model of Quantum-Dot Semiconductor Optical Amplifiers

Kim

Laemmlin

Meuer

et al. 2008

IEEE J. Quantum Electron.

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M. Laemmlin

Theoretical and Experimental Study of High-Speed Small-Signal Cross-Gain Modulation of Quantum-Dot Semiconductor Optical Amplifiers

Slow and fast dynamics of gain and phase in a quantum dot semiconductor optical amplifier

Feedback sensitivity of 1.3 µm InAs/GaAs quantum dot lasers

Complete ground state gain recovery after ultrashort double pulses in quantum dot based semiconductor optical amplifier

Static Gain Saturation Model of Quantum-Dot Semiconductor Optical Amplifiers

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