The calculated gain spectrum of a semiconductor laser based on a generic modal gain model reveals a gain peak that is higher than measured. Analyses of the model and the gain mechanism in semiconductor lasers suggest that the accuracy of the model can be improved by re-formulating the carrier occupation probabilities associated with the model. As a result, good agreement between the optical gain spectrum calculated using the revised model and measured results is achieved
A novel multilongitudinal-mode rate-equations description of the semiconductor laser is presented. T...
This book provides a unified and complete theory for semiconductor lasers, covering topics ranging f...
A set of rate equations is presented describing the deterministic multi-mode dynamics of a semicondu...
The calculated gain spectrum of a semiconductor laser based on a generic modal gain model reveals a ...
Rate equations for multiple‐quantum‐well (MQW) laser structure with carrier transport effects and ad...
The possibility of carrier charge imbalance in the active region of quantum well lasers is demonstra...
Spectral gain studies were carried out for two different laser diode structures from the recordings ...
The effect of optical confinement factor and gain constant (optical gain coefficient) on harmonic di...
A technique based on the integrations of the product of amplified spontaneous emission spectrum and ...
Gain, spontaneous emission, and reflectance play important roles in setting the spectral output of h...
In this paper, we describe methods for analysis of edge-emitted amplified spontaneous emission spect...
A set of rate equations is derived describing the deterministic multi-mode dynamics of a semiconduct...
A general scheme for the determination of vital operating characteristics of semiconductor lasers fr...
A novel multilongitudinal-mode rate-equations description of the semiconductor laser is presented. T...
This book provides a unified and complete theory for semiconductor lasers, covering topics ranging f...
A set of rate equations is presented describing the deterministic multi-mode dynamics of a semicondu...
The calculated gain spectrum of a semiconductor laser based on a generic modal gain model reveals a ...
Rate equations for multiple‐quantum‐well (MQW) laser structure with carrier transport effects and ad...
The possibility of carrier charge imbalance in the active region of quantum well lasers is demonstra...
Spectral gain studies were carried out for two different laser diode structures from the recordings ...
The effect of optical confinement factor and gain constant (optical gain coefficient) on harmonic di...
A technique based on the integrations of the product of amplified spontaneous emission spectrum and ...
Gain, spontaneous emission, and reflectance play important roles in setting the spectral output of h...
In this paper, we describe methods for analysis of edge-emitted amplified spontaneous emission spect...
A set of rate equations is derived describing the deterministic multi-mode dynamics of a semiconduct...
A general scheme for the determination of vital operating characteristics of semiconductor lasers fr...
A novel multilongitudinal-mode rate-equations description of the semiconductor laser is presented. T...
This book provides a unified and complete theory for semiconductor lasers, covering topics ranging f...
A set of rate equations is presented describing the deterministic multi-mode dynamics of a semicondu...
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