Quantum Cascade Laser for FSO Communication

Overview

Quantum Cascade Laser (QCL) is a semiconductor-based laser whose operation is unipolar meaning it only depends on the inter-band transition of electrons. QCLs have an optimum operation band between 3µm-100µm. These LongWave (LWIR) Infrared signals are in the atmospheric transparency window for FSO communications. Application of QCL technology to the communication field will prove useful to overcoming FSO’s main limitation: unpredictable weather conditions. QCL can operate in two distinct modes: Continuous Wave (CW) or an ultra-fast short pulse mode. For FSO communication a CW is preferable as it maintains constant output power [1].

Ongoing research on the practicality of QCLs for FSO communications is based on improving output power levels as well as design. Currently, QCLs in CW mode begin to fail when the total output power level reaches 2-4 Watts. This is due to a rise in temperature within the semiconductor [2]. Improving the cooling improves the output power level, which results in a longer transmission range. Researchers are hopeful to reach a 20 Watt output power level [3].

 

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