Emission Linewidth and α-Factor of 1.55 μm-Range Vertical-Cavity Surface-Emitting Lasers Based on InGaAs/InGaAlAs Quantum Wells

IF 0.8 4区 物理与天体物理 Q4 OPTICS Optics and Spectroscopy Pub Date : 2024-08-07 DOI:10.1134/S0030400X2402005X
S. A. Blokhin, Ya. N. Kovach, M. A. Bobrov, A. A. Blokhin, N. A. Maleev, A. G. Kuzmenkov, A. V. Babichev, I. I. Novikov, L. Ya. Karachinsky, E. S. Kolodeznyi, K. O. Voropaev, A. V. Kulikov, A. Yu. Egorov, V. M. Ustinov
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Abstract

The emission linewidth of single-mode vertical-cavity surface-emitting lasers with an active region based on strained InGaAs/InGaAlAs quantum wells in the spectral range of 1.55 μm was studied. The removal of degeneracy in polarization of the fundamental mode (splitting of the resonance wavelength) and polarization switching (type I) associated with the transition from lasing via the short-wavelength mode to lasing via the long-wavelength one were observed. As the output optical power increased, the emission linewidth dropped to ~30 MHz for both orthogonally polarized modes and was limited by the residual linewidth. The value of the α-factor was estimated: for the short-wavelength mode it reached 5, while for the long-wavelength mode it increased to ~9. At an output optical power of more than 1 mW, the emission line broadening is observed, which can be associated with a gain saturation and the increased α-factor caused by a strong self-heating of the investigated laser.

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基于 InGaAs/InGaAlAs 量子阱的 1.55 μm 范围垂直腔表面发射激光器的发射线宽和 α 因子
摘要 研究了单模垂直腔面发射激光器的发射线宽,该激光器的有源区基于应变 InGaAs/InGaAlAs 量子阱,光谱范围为 1.55 μm。观察到基模偏振中的退行性消除(共振波长分裂)和偏振切换(I 型),这与从通过短波长模式发光到通过长波长模式发光的转变有关。随着输出光功率的增加,两种正交偏振模式的发射线宽都下降到 ~30 MHz,并受到残余线宽的限制。对 α 因子值进行了估算:短波长模式的 α 因子值达到了 5,而长波长模式的 α 因子值增加到了约 9。 当输出光功率超过 1 mW 时,会观察到发射线变宽,这可能与增益饱和以及所研究激光器的强烈自热导致 α 因子值增加有关。
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来源期刊
Optics and Spectroscopy
Optics and Spectroscopy 物理-光谱学
CiteScore
1.60
自引率
0.00%
发文量
55
审稿时长
4.5 months
期刊介绍: Optics and Spectroscopy (Optika i spektroskopiya), founded in 1956, presents original and review papers in various fields of modern optics and spectroscopy in the entire wavelength range from radio waves to X-rays. Topics covered include problems of theoretical and experimental spectroscopy of atoms, molecules, and condensed state, lasers and the interaction of laser radiation with matter, physical and geometrical optics, holography, and physical principles of optical instrument making.
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