Tuning the emission wavelength by varying the Sb composition in InGaAs/GaAsSb “W” quantum wells grown on GaAs (001) substrates

Journal of Vacuum Science & Technology A Pub Date : 2024-04-19 DOI:10.1116/6.0003501
Zon, Tzu-Wei Lo, Zhen-Lun Li, Samatcha Vorathamrong, Chao-Chia Cheng, Chun-Nien Liu, Chun-Te Chiang, Li-Wei Hung, Ming-Sen Hsu, Wei-Sheng Liu, Jen-Inn Chyi, Charles W. Tu
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Abstract

InGaAs/GaAsSb “W” quantum wells with GaAsP barriers are grown on GaAs (001) substrates by molecular beam epitaxy. We investigate the effect of the Sb composition in GaAsSb on the photoluminescence (PL) wavelength. X-ray rocking curve (XRC) measurements and simulations are performed to investigate the material composition and layer thickness. Low-temperature PL spectra are consistent with the XRC results. At the lowest Sb composition of 6%, the PL intensity is the strongest, and room-temperature PL is realized at ∼1100 nm. By increasing the Sb composition in the GaAsSb layer, low-temperature (20 K) PL emits at longer wavelength up to ∼1400 nm at 21% Sb while the PL intensity is the weakest. The XRC is also degraded. The strained bandgap simulation reveals the type-I to type-II band alignment transition as the Sb composition is ≥9%.
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通过改变生长在砷化镓(001)衬底上的 InGaAs/GaAsSb "W "量子阱中的锑成分来调节发射波长
通过分子束外延技术在砷化镓(001)衬底上生长出了带有 GaAsP 势垒的 InGaAs/GaAsSb "W "量子阱。我们研究了 GaAsSb 中 Sb 成分对光致发光 (PL) 波长的影响。通过 X 射线摇摆曲线 (XRC) 测量和模拟来研究材料成分和层厚度。低温 PL 光谱与 XRC 结果一致。在锑含量最低的 6% 时,PL 强度最强,室温下的 PL 波长为 ∼1100 nm。通过增加砷化镓硒层中的锑成分,在锑成分为 21% 时,低温(20 K)聚光的波长更长,可达 ∼1400 nm,而聚光强度最弱。XRC 也有所降低。应变带隙模拟显示,当锑含量≥9% 时,I 型带排列转变为 II 型带排列。
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Journal of Vacuum Science & Technology A
Journal of Vacuum Science & Technology A
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