Self-assembly of compositionally modulated Ga1−xMnxAs multilayers during molecular beam epitaxy

Gallardo-Hernández, S.; Martínez-Velis, I.; Ramírez-López, M.; Kudriatsev, Y.; Escobosa, A.; Morelhão, Sérgio L.; López‐López, M.

doi:10.1063/1.4829922

Cited by 9 publications

(4 citation statements)

References 22 publications

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“…Unlike nucleation and growth, spinodal decomposition is a unique thermodynamic, diffusion-controlled phenomenon that leads to spontaneous formation of multiple phases from a uniform mixture, and the process occurs due to longrange spatial and periodic compositional modulations on the nanometer scale. This unique feature of spinodal decomposition has been exploited to obtain highly periodic nanostructures, e.g., self-assembled two-dimensional superlattices in III-V semiconductors [12][13][14] , metal alloys 15,16 , and transition metal oxides [17][18][19] systems.…”

Section: Introductionmentioning

confidence: 99%

Self-assembly of correlated (Ti, V)O2 superlattices with tunable lamella periods by kinetically enhanced spinodal decomposition

et al. 2019

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Spinodal decomposition, the spontaneous phase separation process of periodic lamellae at the nanometer scale, of correlated oxide ((Ti, V)O 2) systems offers a sophisticated route to achieve a new class of mesoscale structures in the form of self-assembled superlattices for possible applications using steep metal-insulator transitions. Here, we achieve the tunable self-assembly of (Ti, V)O 2 superlattices with steep transitions (ΔT MI < 5 K) by spinodal decomposition with accurate control of the growth parameters without conventional layer-by-layer growth. Abrupt compositional modulation with alternating Ti-rich and V-rich layers spontaneously occurs along the growth direction because inplane lattice mismatch is smaller in this direction than in other directions. An increase in the film growth rate thickens periodic alternating lamellae; the phase separation can be kinetically enhanced by adatom impingement during twodimensional growth, demonstrating that the interplay between mass transport and uphill diffusion yields highly periodic (Ti, V)O 2 superlattices with tunable lamellar periods. Our results for creating correlated (Ti, V)O 2 oxide superlattices provide a new bottom-up strategy to design rutile oxide tunable nanostructures and present opportunities to design new material platforms for electronic and photonic applications with correlated oxide systems.

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Section: Introductionmentioning

confidence: 99%

Self-assembly of correlated (Ti, V)O2 superlattices with tunable lamella periods by kinetically enhanced spinodal decomposition

et al. 2019

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“…Для того чтобы преодолеть эффект " пока-чивания", наблюдаемый в высококачественных монокри-сталлических образцах [13], вместо обычного одиноч-ного сканирования была выбрана проекция величины соотношения ω/2θ как функция от угла ω. Модели-рование и подгонка кривых качания были выполнены с помощью программы X'pert Epitaxy and Smoothfit. Полученные значения толщин квантовой ямы InGaAs и барьерных слоев GaAs контролировались с помощью изображений поперечного сечения гетероструктуры, по-лученных методом просвечивающей электронной микро-скопии (ПЭМ).…”

Section: структуры для исследований и методики экспериментовunclassified

Дельта-легирование соединениями марганца гетероструктур на основе GaAs

Moiseev¹,

Неведомский²,

Kudriavtsev³

et al. 2017

Физика И Техника Полупроводников

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Гетероструктуры с квантовыми ямами GaAs/InGaAs/GaAs, легированные пространственно удаленными моноатомными слоями Mn, были получены на подложке GaAs(001) в режиме монослойного наращивания методом молекулярно-пучковой эпитаксии. Комбинированные исследования полученных образцов были проведены при помощи метода вторичной ионной масс-спектрометрии, рентгено-дифракционных измерений и с использованием просвечивающего электронного микроскопа. Исследуемые гетероструктуры с концен-трацией легирующей примеси 0.5 монослоя были упруго напряжены и демонстрировали планарные четкие границы раздела без видимых протяженных и точечных дефектов. Предложена методика визуализации распределения концентрации марганца в трехмерной матрице GaAs вблизи квантовой ямы. Согласно экспе-риментальным результатам существует вероятность диффузии марганца в квантовую яму GaAs/InGaAs/GaAs при уменьшении критической толщины буферного слоя GaAs менее 3 нм.Работа была выполнена при частичной поддержке проекта РФФИ (№ 15-02-08909).

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“…3 The most prominent feature of SD is its capacity to assemble anisotropic condensed matter into ordered multilayers or even superlattices (SLs) without layer-by-layer epitaxy. [4][5][6] A notable example of SD ordering is provided by the strongly anisotropic VO 2 -TiO 2 system. 7 The compositional wave in V 1−x Ti x O 2 propagates along the c-axis of the rutile structure (c R ), producing a layered nanocomposite with alternating V-and Ti-rich phases.…”

Section: Introductionmentioning

confidence: 99%

“…3 The most prominent feature of SD is its capacity to assemble anisotropic condensed matter into ordered multilayers or even superlattices (SLs) without layer-by-layer epitaxy. 4–6…”

Section: Introductionmentioning

confidence: 99%

Spinodal decomposition introduces strain-enhanced thermochromism in polycrystalline V_1−xTi_xO₂ thin films

Belenchuk,

Shapoval,

Roddatis

et al. 2023

Nanoscale

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Self-assembly of compositionally modulated Ga1−xMnxAs multilayers during molecular beam epitaxy

Cited by 9 publications

References 22 publications

Self-assembly of correlated (Ti, V)O2 superlattices with tunable lamella periods by kinetically enhanced spinodal decomposition

Self-assembly of correlated (Ti, V)O2 superlattices with tunable lamella periods by kinetically enhanced spinodal decomposition

Дельта-легирование соединениями марганца гетероструктур на основе GaAs

Spinodal decomposition introduces strain-enhanced thermochromism in polycrystalline V_1−xTi_xO₂ thin films

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Self-assembly of compositionally modulated Ga1−xMnxAs multilayers during molecular beam epitaxy

Cited by 9 publications

References 22 publications

Self-assembly of correlated (Ti, V)O2 superlattices with tunable lamella periods by kinetically enhanced spinodal decomposition

Self-assembly of correlated (Ti, V)O2 superlattices with tunable lamella periods by kinetically enhanced spinodal decomposition

Дельта-легирование соединениями марганца гетероструктур на основе GaAs

Spinodal decomposition introduces strain-enhanced thermochromism in polycrystalline V1−xTixO2 thin films

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Spinodal decomposition introduces strain-enhanced thermochromism in polycrystalline V_1−xTi_xO₂ thin films