A Novel Ferroelectric Rashba Semiconductor

Krizman, Gauthier; Zakusylo, Tetiana; Sajeev, Lakshmi; Hajlaoui, Mahdi; Takashiro, Takuya; Rosmus, Marcin; Olszowska, Natalia; Kołodziej, Jacek J.; Bauer, Günther; Caha, Ondrej; Springholz, Gunther

doi:10.1002/adma.202310278

Advanced Materials

2023

DOI: 10.1002/adma.202310278

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A Novel Ferroelectric Rashba Semiconductor

Gauthier Krizman,

Tetiana Zakusylo,

Lakshmi Sajeev

et al.

Abstract: Fast, reversible, and low‐power manipulation of the spin texture is crucial for next generation spintronic devices like non‐volatile bipolar memories, switchable spin current injectors or spin field effect transistors. Ferroelectric Rashba semiconductors (FERSC) are the ideal class of materials for the realization of such devices. Their ferroelectric character enables an electronic control of the Rashba‐type spin texture by means of the reversible and switchable polarization. Yet, only very few materials are e… Show more

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2024

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Cited by 3 publications

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Spatially Resolved Light‐Induced Ferroelectric Polarization in α‐In₂Se₃/Te Heterojunctions

Zhang,

Li,

et al. 2024

Advanced Materials

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Light‐induced ferroelectric polarization in 2D layered ferroelectric materials holds promise in photodetectors with multilevel current and reconfigurable capabilities. However, translating this potential into practical applications for high‐density optoelectronic information storage remains challenging. In this work, an α‐In2Se3/Te heterojunction design that demonstrates spatially resolved, multilevel, nonvolatile photoresponsivity is presented. Using photocurrent mapping, the spatially localized light‐induced poling state (LIPS) is visualized in the junction region. This localized ferroelectric polarization induced by illumination enables the heterojunction to exhibit enhanced photoresponsivity. Unlike previous reports that observe multilevel polarization enhancement in electrical resistance, the device shows nonvolatile photoresponsivity enhancement under illumination. After polarization saturation, the photocurrent increases up to 1000 times, from 10−12 to 10−9 A under the irradiation of a 520 nm laser with a power of 1.69 nW, compared to the initial state in a self‐driven mode. The photodetector exhibits high detectivity of 4.6×1010 Jones, with a rise time of 27 µs and a fall time of 28 µs. Furthermore, the device's localized poling characteristics and multilevel photoresponse enable spatially multiplexed optical information storage. These results advance the understanding of LIPS in 2D ferroelectric materials, paving the way for optoelectronic information storage technologies.

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Spatially Resolved Light‐Induced Ferroelectric Polarization in α‐In₂Se₃/Te Heterojunctions

Zhang,

Li,

et al. 2024

Advanced Materials

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Pushing the Thickness Limit of the Giant Rashba Effect in Ferroelectric Semiconductor GeTe

Croes,

Llopez,

Tagne-Kaegom

et al. 2024

Nano Lett.

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Ferroelectric Rashba semiconductors (FERSCs) such as α-GeTe are promising candidates for energy-efficient information technologies exploiting spin–orbit coupling (SOC) and are termed spin–orbitronics. In this work, the thickness limit of the Rashba-SOC effect in α-GeTe films is investigated. We demonstrate, using angle-resolved photoemission spectroscopy (ARPES) and first-principles calculations performed on pristine GeTe, that down to 1 nm, GeTe(111) films on a Sb-covered Si(111) substrate continuously exhibit a giant Rashba effect characterized, at 1 nm, by a constant of 5.2 ± 0.5 eV·Å. X-ray photoemission spectroscopy (XPS) allows the understanding of the persistence of the Rashba effect by evidencing a compensation of Ge vacancy defects resulting from the insertion of Sb interfacial atoms in the early stage growth of the GeTe(111) films.

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Raman Spectra of PbTe- and GeTe-Based Monocrystalline Epitaxial Layers

Romcevic,

Hadzic,

Dziawa

et al. 2024

Journal of Spectroscopy

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Lead telluride and germanium telluride are well-known IV-VI semiconductors, which is now the focus of research due to the perspective of application as thermoelectrics for midrange temperatures. Solid solutions and heterostructures on this basis, obtained by molecular beam epitaxy, are a promising direction for the development of these materials. In this paper, we have focused on the Raman spectra excited by the 514.5 nm laser line (out of resonance) of PbTe, GeTe, (Pb, Ge)Te, and (Pb, Ge, Eu)Te layers grown on BaF2 (111) monocrystalline substrates. The obtained phonon properties are related to the properties of the corresponding bulk materials or can be explained by a model that takes into account the difference in the masses of the constituent elements only, as is the case with the local mode of Ge in PbTe (registered at about 181 cm−1). Multiphonon processes registered for this phonon are a consequence of the change in the electronic structure of PbTe and electron-phonon interaction. An improvement in the quality of thin films due to doping with Eu ions was also registered.

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A Novel Ferroelectric Rashba Semiconductor

Cited by 3 publications

References 84 publications

Spatially Resolved Light‐Induced Ferroelectric Polarization in α‐In₂Se₃/Te Heterojunctions

Spatially Resolved Light‐Induced Ferroelectric Polarization in α‐In₂Se₃/Te Heterojunctions

Pushing the Thickness Limit of the Giant Rashba Effect in Ferroelectric Semiconductor GeTe

Raman Spectra of PbTe- and GeTe-Based Monocrystalline Epitaxial Layers

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A Novel Ferroelectric Rashba Semiconductor

Cited by 3 publications

References 84 publications

Spatially Resolved Light‐Induced Ferroelectric Polarization in α‐In2Se3/Te Heterojunctions

Spatially Resolved Light‐Induced Ferroelectric Polarization in α‐In2Se3/Te Heterojunctions

Pushing the Thickness Limit of the Giant Rashba Effect in Ferroelectric Semiconductor GeTe

Raman Spectra of PbTe- and GeTe-Based Monocrystalline Epitaxial Layers

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Product

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Spatially Resolved Light‐Induced Ferroelectric Polarization in α‐In₂Se₃/Te Heterojunctions

Spatially Resolved Light‐Induced Ferroelectric Polarization in α‐In₂Se₃/Te Heterojunctions