在GeSn缓冲器上生长的$Si_{x}Ge_{1-x-y}Sn_{y}/Ge_{1-y}Sn_{y}$引脚二极管的电致发光

ESSCIRC 2022- IEEE 48th European Solid State Circuits Conference (ESSCIRC) Pub Date : 2022-09-19 DOI:10.1109/ESSCIRC55480.2022.9911458

L. Seidel, S. Schäfer, M. Oehme, Dan Buca, G. Capellini, J. Schulze, D. Schwarz

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引用次数: 0

摘要

我们介绍了$\text{Ge} {1-y}Sn_{\mathrm{y}}$脚二极管和$\text{Si} {\mathrm{x}}\text{Ge} {1-\mathrm{x}-\mathrm{y}}\text{Sn} {\mathrm{y}}/ \text{Ge} {1-\mathrm{y}}\text{Sn} {\mathrm{y}}$脚二极管的生长、制造和表征。采用分子束外延法在部分松弛的$\text{Ge}_{1-\ mathm {y}}\text{Sn}_{\ mathm {y}}$缓冲剂上生长了引脚二极管。晶体分析表明，$\text{Ge} {1-\ mathm {y}}\text{Sn} {\ mathm {y}}$引脚二极管是晶格匹配生长，$\text{Ge} {1-\ mathm {x}}\ mathm {y}}\text{Sn}} {\ mathm {y}}/\text{Ge} {1-\ mathm {y}}\text{Sn}} {\ mathm {y}}$引脚二极管是相对于缓冲区的伪晶生长。温度相关的直流电测量显示阈值电压从0.3 V到0.55 V的变化和显示金属行为的串联电阻。此外，通过比较13.4 K和293 K下的电致发光光谱，我们观察到$\text{Ge}_{1-\ mathm {y}}\text{Sn}_{\ mathm {y}}$引脚二极管的信号高10倍，而$\text{Si}_{\ mathm {x}}\text{Ge}_{\ mathm {x}} -\ mathm {y}}\text{Sn}} {\ mathm {y}}/\text{Ge}} {1-\ mathm {y}}\text{Sn}} {\ mathm {y}}$引脚二极管的信号高3倍。在注入电流密度为2.5 kA/cm2时，峰值能量分别为575 meV和610 meV。

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Electroluminescence of $Si_{x}Ge_{1-x-y}Sn_{y}/Ge_{1-y}Sn_{y}$ pin-Diodes Grown on a GeSn Buffer

We present the growth, fabrication, and characterization of a $\text{Ge}_{1-y}Sn_{\mathrm{y}}$ pin-diode and a $\text{Si}_{\mathrm{x}}\text{Ge}_{1-\mathrm{x}-\mathrm{y}}\text{Sn}_{\mathrm{y}}/ \text{Ge}_{1-\mathrm{y}}\text{Sn}_{\mathrm{y}}$ pin-diode. The pin-diodes are grown by molecular beam epitaxy on a partially relaxed $\text{Ge}_{1-\mathrm{y}}\text{Sn}_{\mathrm{y}}$ buffer grown by reduce-pressure chemical vapor deposition. The analysis of the crystal shows that the $\text{Ge}_{1-\mathrm{y}}\text{Sn}_{\mathrm{y}}$ pin-diode is lattice-matched grown and the $\text{Si}_{\mathrm{x}}\text{Ge}_{1-\mathrm{x}-\mathrm{y}}\text{Sn}_{\mathrm{y}}/\text{Ge}_{1-\mathrm{y}}\text{Sn}_{\mathrm{y}}$ pin-diode is pseudomorphic grown with respect to the buffer. Temperature-dependent direct current measurements reveal a threshold voltage shift from 0.3 V to 0.55 V and a series resistance that shows metallic behavior. Furthermore, by comparing the electroluminescence spectra at 13.4 K and 293 K we observe a 10 times higher signal for the $\text{Ge}_{1-\mathrm{y}}\text{Sn}_{\mathrm{y}}$ pin-diode and a 3 times higher signal for the $\text{Si}_{\mathrm{x}}\text{Ge}_{1-\mathrm{x}-\mathrm{y}}\text{Sn}_{\mathrm{y}}/\text{Ge}_{1-\mathrm{y}}\text{Sn}_{\mathrm{y}}$ pin-diode at cryogenic temperatures. The peak energies at an injection current density of 2.5 kA/cm2 are 575 meV and 610 meV, respectively.

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ESSCIRC 2022- IEEE 48th European Solid State Circuits Conference (ESSCIRC)

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