Multimode dynamics of terahertz quantum cascade lasers: Spontaneous and actively induced generation of dense and harmonic coherent regimes

We present a study concerning the dynamics of dense and harmonic coherent regimes in quantum cascade lasers (QCLs) in a Fabry-Perot configuration emitting in the terahertz (THz) spectral region. Firstly, we study the device in free-running operation, reproducing the main features of the self-generated optical frequency combs and harmonic frequency combs in this spectral range, commenting on the points of difference from the midinfrared region and finding excellent agreement with the most recent experimental evidence. Then, we analyze the THz-QCL dynamics under radio-frequency injection, with a focus on the effect of the modulation of the current on the degree of locking of the system, and we perform a systematic investigation aimed to provide a procedure for the generation of a train of pulses with short duration and high contrast. Furthermore, we extend our study to the generation of sequences of pulses with repetition frequency, which is a multiple of the free-spectral range (FSR) of the laser cavity, reproducing harmonic mode locking of the laser, a method which has been recently demonstrated in experiments with THz QCLs, and the results of which are particulary promising for a large stream of applications ranging from optical communication to imaging.

Automated summary

This article presents a study on the dynamics of dense and harmonic coherent regimes in quantum cascade lasers (QCLs) emitting in the terahertz (THz) spectral region. The study reproduces the main features of optical frequency combs and harmonic frequency combs in this region, analyzes the effect of current modulation on system locking, and provides a procedure for generating short duration and high contrast pulses. Furthermore, the study demonstrates the generation of sequences of pulses with a repetition frequency that is a multiple of the free-spectral range (FSR) of the laser cavity, showing promising results for various applications.