Heteroepitaxial vertical perovskite hot-electron transistors down to the monolayer limit

AbstractTwo-dimensional heterostructures combined with vertical geometries are candidates to probe and utilize the physical properties of atomically-thin materials. The vertical configuration enables a unique form of hot-carrier spectroscopy as well as atomic-scale devices. Here, we present the room-temperature evolution of heteroepitaxial perovskite hot-electron transistors using a SrRuO3 base down to the monolayer limit (∼4 Å). As a fundamental electronic probe, we observe an abrupt transition in the hot-electron mean free path as a function of base thickness, coinciding with the thickness-dependent resistive transition. As a path towards devices, we demonstrate the integrated synthesis of perovskite one-dimensional electrical edge contacts using water-soluble and growth-compatible Sr3Al2O6 hard masks. Edge-contacted monolayer-base transistors exhibit on/off ratios reaching ∼108, complete electrostatic screening by the base manifesting pure hot-electron injection, and excellent scaling of the output current density with device dimensions. These results open new avenues for incorporating emergent phenomena at oxide interfaces and in heterostructures.

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Measurement of Ballistic Mean-Free-Path of Hot Quasiparticles Injected in Superconductor-Base Hot-Electron Transistors

Japanese Journal of Applied Physics ◽

10.1143/jjap.25.402 ◽

1986 ◽

Vol 25 (Part 1, No. 3) ◽

pp. 402-405 ◽

Cited By ~ 11

Author(s):

Takeshi Kobayashi ◽

Hiroyuki Sakai ◽

Yoshiyuki Kurita ◽

Masayoshi Tonouchi ◽

Michihiro Okada

Keyword(s):

Free Path ◽

Mean Free Path ◽

Hot Electron ◽

Electron Transistors

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Approaching the Collection Limit in Hot Electron Transistors with Ambipolar Hot Carrier Transport

ACS Nano ◽

10.1021/acsnano.9b07020 ◽

2019 ◽

Vol 13 (12) ◽

pp. 14191-14197 ◽

Cited By ~ 1

Author(s):

Wei Liu ◽

Lingfei Li ◽

Hongwei Guo ◽

Akeel Qadir ◽

Srikrishna Chanakya Bodepudi ◽

...

Keyword(s):

Carrier Transport ◽

Hot Electron ◽

Hot Carrier ◽

Electron Transistors

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Thermal effects of hot electron halo in a laser-imploded Z-layered plasma pellet

Laser and Particle Beams ◽

10.1017/s0263034600008661 ◽

1990 ◽

Vol 8 (3) ◽

pp. 421-426

Author(s):

V. Palleschi ◽

D. P. Singh ◽

M. A. Harith ◽

M. Vaselli

Keyword(s):

Electron Temperature ◽

Coupling Efficiency ◽

Mean Free Path ◽

Positive Influence ◽

Laser Wavelength ◽

Critical Surface ◽

Hot Electron ◽

The Core ◽

Electron Mean Free Path ◽

Hot Corona

Coupling of the core with the surrounding corona of hot electrons produced around the plasma critical surface in a spherically symmetric laser-imploded Z-layered plasma target has been analyzed. Considering that the energy equipartition exists between the cold electrons of the core and the hot coronal electrons in the core–corona overlapping region, the analytic expression for core–corona coupling has been derived. The efficiency of heat transfer from the hot corona to the cold core depends on the laser wavelength, mean electron temperature in the ablation region, and the width of the Z-layer in the plasma pellet. Numerical results indicate that short wavelength lasers are favorable for efficient heating of the core by the surrounding hot corona. The core-corona coupling increases primarily with the mean electron temperature up to a certain extent and beyond that further laser flux transfer to the hot corona results in decoupling of the core from the corona. The presence of Z-layer is likely to reduce the electron mean free path in the ablation region and affects the laser wavelength scaling of the core-corona coupling. It is also found to have positive influence on the maximum coupling efficiency of the core with the hot corona.

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