Fabrication and Characterization of GaAs Tunnel Diode and ErAs Nanoparticles Enhanced GaAs Tunnel Diode for Multijunction Solar Cell

机译：GaAs隧道二极管的制造与表征和用于多结太阳能电池的GaAs隧道二极管的GaAs隧道二极管和Eras纳米颗粒

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We report here the fabrication and characterization of GaAs tunnel diode (TD) and ErAs nanoparticles (Nps) enhanced GaAs TD. Four GaAs TDs with different contact area were fabricated by using MOCVD. We found extremely high peak current density of ～250A/cm~2 for the TD with r=0.25mm contact area. Moreover a hysteresis loop was appeared during sweeping up and sweeping down the external voltage. A 'vector load line model' was proposed to explain the origin of the shape of the hysteresis loop and the onset of the bistability occurred at the intersect of the loadline and the current-voltage (I-V) curve of TD. Meanwhile, we have grown ErAs Nps on GaAs(100) surface by using MBE and succeeded in overgrowth of GaAs after ErAs deposition. GaAs(p+)/ErAs(Nps)/GaAs(n+) TDs were fabricated and characterized. We found the GaAs sample containing 70s deposition of ErAs showed the best TD behavior. No TD behavior was observed for the sample without addition of ErAs Nps, clearly indicating the strong tunneling enhancement effect from ErAs Nps.

机译：我们在此报告GaAs隧道二极管（TD）和Eras纳米颗粒（NPS）增强的GaAs Td的制造和表征。使用MOCVD制造具有不同接触面积的四个GaAs TDS。我们发现具有r = 0.25mm接触面积的TD极高的峰值电流密度〜250a / cm〜2。此外，在扫描并扫描外部电压期间出现了滞后环。提出了“向量负载线模型”以解释滞后回路的形状的起源，并且在Loadline的交叉处发生在Loadline和TD的电流 - 电压（I-V）曲线时发生的双稳态的开始。同时，我们通过使用MBE在GaAs（100）表面上生长了Eras NPS，并在Eras沉积之后成功地成功地过度生长了GaAs。 GaAs（P +）/ ERAS（NPS）/ GaAs（N +）TDS制备并表征。我们发现含有70年代沉积的GaAs样本显示了最佳的TD行为。对于样品没有观察到TD行为，而不会增加ERAS NPS，清楚地表明来自ERAS NPS的强大隧道增强效果。

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《Materials Research Society Symposium on Photovoltaic Materials and Devices》|2014年||共7页
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Tomah Sogabe; Yasushi Shoji; Mitsuyoshi Ohba; Naito Shunya; Naoya Miyashita; Chao-Yu Hung; Akio Ogura; Yoshitaka Okada;
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1. MBE-grown GaAs:Si/GaAs:Be tunnel diodes for multijunction solar cells [J] . Klimko G. V., Komissarova T. A., Sorokin S. V., Technical physics letters: Letters to the Russian journal of applied physics . 2015,第9期

机译：MBE生长的GaAs：Si / GaAs：Be是用于多结太阳能电池的隧道二极管
2. Growth aspects of AlGaAs/GaAs tunnel diodes for multijunction solar cells [J] . Timo G, Flores C, Campesato R Crystal Research and Technology: Journal of Experimental and Industrial Crystallography . 2005,第10a11期

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3. Growth optimization of InAs/GaAs quantum dots and performance enhancement of a GaAs tunnel diode by embedding quantum dots for solar cell application [J] . Park K. W., Kang S. J., Ravindran Sooraj, Semiconductor science and technology . 2015,第7期

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4. Fabrication and Characterization of GaAs Tunnel Diode and ErAs Nanoparticles Enhanced GaAs Tunnel Diode for Multijunction Solar Cell [C] . Tomah Sogabe, Yasushi Shoji, Mitsuyoshi Ohba, Materials Research Society Symposium on Photovoltaic Materials and Devices . 2014

机译：GaAs隧道二极管的制造与表征和纳瓦纳米粒子增强型GaAs隧道二极管用于多结太阳能电池
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6. GaAs-based resonant tunneling diode (RTD) epitaxy on Si for highly sensitive strain gauge applications [O] . Jie Li, Hao Guo, Jun Liu, 2013

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7. Type II heterojunction tunnel diodes based on GaAs for multi-junction solar cells: Fabrication, characterization and simulation [O] . K. Louarn, C. Chantal, A. Arnoult, 2016

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8. GaAsSb-based heterojunction tunnel diodes for tandem solar cell interconnects [R] . Zolper, J. C. , Klem, J. F. , Plut, T. A. , 1995

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Fabrication and Characterization of GaAs Tunnel Diode and ErAs Nanoparticles Enhanced GaAs Tunnel Diode for Multijunction Solar Cell

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