Determination of exciton binding energy using photocurrent spectroscopy of Ge quantum-dot single-hole transistors under CW pumping

Hong, Po-Yu; Lai, Chi-Cheng; Tsai, Ting; Lin, Horng-Chih; George, Thomas; Kuo, David M. T.; Li, Pei-Wen

doi:10.1038/s41598-023-41582-8

Sci Rep

2023

DOI: 10.1038/s41598-023-41582-8

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Determination of exciton binding energy using photocurrent spectroscopy of Ge quantum-dot single-hole transistors under CW pumping

Po-Yu Hong,

Chi-Cheng Lai,

Ting Tsai

et al.

Abstract: We reported exciton binding-energy determination using tunneling-current spectroscopy of Germanium (Ge) quantum dot (QD) single-hole transistors (SHTs) operating in the few-hole regime, under 405–1550 nm wavelength (λ) illumination. When the photon energy is smaller than the bandgap energy (1.46 eV) of a 20 nm Ge QD (for instance, λ = 1310 nm and 1550 nm illuminations), there is no change in the peak voltages of tunneling current spectroscopy even when the irradiation power density reaches as high as 10 µW/µm2… Show more

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2024

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Mapping the Ge/InAl(Ga)As interfacial electronic structure and strain relief mechanism in germanium quantum dots

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J. Mater. Chem. C

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Determination of exciton binding energy using photocurrent spectroscopy of Ge quantum-dot single-hole transistors under CW pumping

Cited by 3 publications

References 27 publications

Mapping the Ge/InAl(Ga)As interfacial electronic structure and strain relief mechanism in germanium quantum dots

Mapping the Ge/InAl(Ga)As interfacial electronic structure and strain relief mechanism in germanium quantum dots

High-Performance White-Light Detection of Inorganic/Perovskite Mixed Quantum Dot Layers Fabricated by Drop-Casting Methods

Probing Electronic Structures of Ge Quantum Dot/Si₃N₄ Barriers in Few-Hole Regime Using Drain Bias-Dependent Tunneling Current Spectroscopy

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