Author(s): Ma, KD (Ma, Kedi); Liu, ZZ (Liu, Zizhuo); Cheng, FM (Cheng, Fengmin); Yang, PC (Yang, Pengchang); Li, HX (Li, Hongxiao); Niu, S (Niu, Shan); Ge, GH (Ge, Gaohui); Xu, H (Xu, Hao); Zhuo, N (Zhuo, Ning); Su, H (Su, Hui); Zhang, JC (Zhang, Jinchuan)

Source: CHEMOSENSORS Volume: 12 Issue: 1  Article Number: 2  DOI: 10.3390/chemosensors12010002  Published: JAN 2024 

Abstract: In this research, we demonstrate a wavelength-stable continuous wave (CW) distributed feedback (DFB) quantum cascade laser (QCL) emitting at 7.2 mu m using a surface metal grating approach without epitaxial regrowth. The deep metal grating provides an appropriate DFB coupling coefficient and enhanced thermal extraction, resulting in improved lasing performance and the realization of impressive wavelength stability. Quantitatively, the temperature tuning coefficient of the single-mode emission is only 0.54 nm/degrees C from 20 degrees C to 70 degrees C, and the current tuning coefficient of the single-mode emission is 3.2 nm/A from 1.0 A to 1.6 A. A DFB-QCL with a 2 mm cavity length exhibits a low threshold current of 0.6 A and a power of 1.1 W with a slope efficiency of 1 W/A in the CW mode at 300 K. A single-mode operation with a side mode suppression ratio of 33 dB and a single-lobed far-field without beam steering is obtained in the working temperature range of 20-70 degrees C The improved wavelength stability using a deep surface metal grating approach promises simplified fabrication, which is meaningful for the commercial applications of QCLs.

Accession Number: WOS:001149519300001

eISSN: 2227-9040