Wide and tunable spectral asymmetry between narrow and wide facet outputs in a tapered quantum-dot superluminescent diode

Abstract: A wide spectral asymmetry between the front and rear facets of a tapered chirped quantum dot multi-section superluminescent diode is reported. The spectral asymmetry between the two facet outputs was found to be tunable and highly dependent on the bias asymmetry between the two contact sections, with a spectral mismatch of up to 14 nm. Numerical simulations confirmed a relationship between this spectral asymmetry and the non-uniform filling of the quantum dots’ confined states when different current densities … Show more

“…From the theoretical side, the understanding of light generation processes inside the diode is a main focus. For this, a plethora of approaches is being utilized including rate equation models [8] [9] [10], travelling wave approaches [11], finite element methods [12] and quantized treatments [13] [14].…”

Stochastic Simulation of Emission Spectra and Classical Photon Statistics of Quantum Dot Superluminescent Diodes

“…From the theoretical side, the understanding of light generation processes inside the diode is a main focus. For this, a plethora of approaches is being utilized including rate equation models [8] [9] [10], travelling wave approaches [11], finite element methods [12] and quantized treatments [13] [14].…”

Stochastic Simulation of Emission Spectra and Classical Photon Statistics of Quantum Dot Superluminescent Diodes

Modeling of multi-electrode tapered quantum-dot superluminescent diodes

Numerical and Experimental Characterization of Chirped Quantum Dot-based Semiconductor Optical Amplifiers