Photoelectron Holographic Study for Atomic Site Occupancy for Si Dopants in Si-Doped κ-Ga<sub>2</sub>O<sub>3</sub>(001)

Tsai, Yuhua; Hashimoto, Yusuke; Sun, ZeXu; Moriki, Takuya; Tadamura, Takashi; Nagata, Takahiro; Mazzolini, Piero; Parisini, Antonella; Bosi, Matteo; Seravalli, Luca; Matsushita, Tomohiro; Yamashita, Yoshiyuki

doi:10.1021/acs.nanolett.4c00482

Nano Lett.

2024

DOI: 10.1021/acs.nanolett.4c00482

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Photoelectron Holographic Study for Atomic Site Occupancy for Si Dopants in Si-Doped κ-Ga₂O₃(001)

Yuhua Tsai,

Yusuke Hashimoto,

ZeXu Sun

et al.

Abstract: We investigated atomic site occupancy for the Si dopant in Si-doped κ-Ga 2 O 3 (001) using photoelectron spectroscopy (PES) and photoelectron holography (PEH). From PES and PEH, we found that the Si dopant had one chemical state, and three types of inequivalent Si substitutional sites (Si Ga ) were formed. The ratios for the inequivalent tetrahedral, pentahedral, and octahedral Si Ga sites were estimated to be 55.0%, 28.1%, and 16.9%, respectively. Higher (lower) ratios for the three inequivalent Si Ga sites m… Show more

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Critical role of dopant bond strength in enhancing the conductivity of n-type doped κ-Ga2O3

Feng,

Chen,

Lin

et al. 2024

Physics Letters A

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Critical role of dopant bond strength in enhancing the conductivity of n-type doped κ-Ga2O3

Feng,

Chen,

Lin

et al. 2024

Physics Letters A

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High-Efficiency Doping Outcomes in Homoepitaxial β-Ga₂O₃ Films via Pulsed Si Doping with MOCVD

Wang,

Feng,

et al. 2024

Crystal Growth & Design

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Using metal−organic chemical vapor deposition, pulsed Si-doped homoepitaxial gallium oxide (β-Ga 2 O 3 ) films were deposited on (010) β-Ga 2 O 3 substrates. The impact of the Si pulse duty cycle on the morphology, structure, and electrical properties of the films was investigated. The full width at half-maximum (fwhm) of the (020) rocking curves for all doped films was less than 55 arcsec, indicating high crystal quality. Employing pulse width modulation of Si doping, as opposed to continuous Si doping, has resulted in a reduction in surface roughness by approximately 2.83 to 9.32 times. Notably, under the conditions of a 0.3 min Si source vent time and a 0.1 min run, an activation ratio of up to 99.1% was achieved, maximizing the electrical performance. This included achieving the lowest resistivity of 0.0042 Ω•cm and an electron mobility of 44.1 cm 2 /(V s) at a carrier concentration of 3.35 × 10 19 cm −3 . The application of pulsed Si doping provided sufficient diffusion time for Si atoms, enabling effective doping and thereby enhancing the high carrier concentration electrical performance of the films, offering an effective pathway for their use as ohmic contacts in ultrawide-bandgap semiconductor devices.

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High-resolution electron energy analyzer with wide acceptance angle for hard X-ray photoelectron holography: integrating PESCATORA and retarding field analyzer

Hashimoto,

Mizuno,

Matsuda

et al. 2024

Jpn. J. Appl. Phys.

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Photoelectron holography requires measuring the photoelectron angular distribution across a wide solid angle, typically exceeding ±45°. This necessitates an electron analyzer that offers both a large solid angle and high energy resolution for kinetic energies ranging from several hundred to several thousand eV. Our previously developed high-resolution retarding field analyzer (RFA) achieves excellent energy resolution. However, its close electrode spacing limits operation at high voltages (several thousand eV). To address this limitation, we propose a novel electron analyzer that combines a parallelizing electron lens (PESCATORA) with an RFA. The PESCATORA lens parallelizes the trajectories of photoelectrons. Subsequently, the RFA decelerates and analyzes their energy. This two-stage approach allows for a sufficient distance between the RFA electrodes, enabling high-voltage operation. The resulting analyzer functions as a high-pass filter with a sharp energy cut-off. By incorporating lock-in detection, this system can be further worked as a bandpass electron analyzer.

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Photoelectron Holographic Study for Atomic Site Occupancy for Si Dopants in Si-Doped κ-Ga₂O₃(001)

Cited by 3 publications

References 60 publications

Critical role of dopant bond strength in enhancing the conductivity of n-type doped κ-Ga2O3

Critical role of dopant bond strength in enhancing the conductivity of n-type doped κ-Ga2O3

High-Efficiency Doping Outcomes in Homoepitaxial β-Ga₂O₃ Films via Pulsed Si Doping with MOCVD

High-resolution electron energy analyzer with wide acceptance angle for hard X-ray photoelectron holography: integrating PESCATORA and retarding field analyzer

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Product

Resources

About

Photoelectron Holographic Study for Atomic Site Occupancy for Si Dopants in Si-Doped κ-Ga2O3(001)

Cited by 3 publications

References 60 publications

Critical role of dopant bond strength in enhancing the conductivity of n-type doped κ-Ga2O3

Critical role of dopant bond strength in enhancing the conductivity of n-type doped κ-Ga2O3

High-Efficiency Doping Outcomes in Homoepitaxial β-Ga2O3 Films via Pulsed Si Doping with MOCVD

High-resolution electron energy analyzer with wide acceptance angle for hard X-ray photoelectron holography: integrating PESCATORA and retarding field analyzer

Contact Info

Product

Resources

About

Photoelectron Holographic Study for Atomic Site Occupancy for Si Dopants in Si-Doped κ-Ga₂O₃(001)

High-Efficiency Doping Outcomes in Homoepitaxial β-Ga₂O₃ Films via Pulsed Si Doping with MOCVD