The Effect of In-Plane Wave Vector and Heterostructure Strain on Spin-Transport Properties in ZnO/ZnCdO Heterostructure

V. J. Priyadharshini; D. Gopinath; A. Meharajbegum; L. Bruno Chandrasekar; S. Rafi Ahamed; Lalitha Gnanasekaran

doi:10.1142/S201032472450022X

The Effect of In-Plane Wave Vector and Heterostructure Strain on Spin-Transport Properties in ZnO/ZnCdO Heterostructure

V. J. Priyadharshini
, D. Gopinath
, A. Meharajbegum
, L. Bruno Chandrasekar
, S. Rafi Ahamed
, Lalitha Gnanasekaran

Departamento de Ingeniería Mecánica

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

The effect of in-plane wave vectors on spin-dependent transport properties is examined theoretically. In this work, ZnO/Zn1-xCdxO double barrier-heterostructure with an identical barrier width of 30 Å is considered. The transmission coefficient is calculated by using the transfer matrix. The role of Dresselhaus spin-orbit coupling is accounted. The in-plane wave vector influences the energy separation between different orientations of the electrons. The spin separation ranges from 0.002meV to 0.008meV as the in-plane wave vector changes from 1×108/m to 5×108/m. The degree of spin polarization is enhanced at the high magnitude of the in-plane wave vector. The dwell time of the incident electrons is examined. The role of heterostructure strain on spin-transport properties is also reported. About 73% of polarization efficiency is observed in this study when the heterostructure strain is observed.

Idioma original	Inglés
Número de artículo	2450022
Publicación	SPIN
Volumen	15
N.º	1
DOI	https://doi.org/10.1142/S201032472450022X
Estado	Publicada - 1 feb. 2025

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title = "The Effect of In-Plane Wave Vector and Heterostructure Strain on Spin-Transport Properties in ZnO/ZnCdO Heterostructure",

abstract = "The effect of in-plane wave vectors on spin-dependent transport properties is examined theoretically. In this work, ZnO/Zn1-xCdxO double barrier-heterostructure with an identical barrier width of 30 {\AA} is considered. The transmission coefficient is calculated by using the transfer matrix. The role of Dresselhaus spin-orbit coupling is accounted. The in-plane wave vector influences the energy separation between different orientations of the electrons. The spin separation ranges from 0.002meV to 0.008meV as the in-plane wave vector changes from 1×108/m to 5×108/m. The degree of spin polarization is enhanced at the high magnitude of the in-plane wave vector. The dwell time of the incident electrons is examined. The role of heterostructure strain on spin-transport properties is also reported. About 73\% of polarization efficiency is observed in this study when the heterostructure strain is observed.",

keywords = "Dresselhaus, dwell time, Heterostructure, spin polarization",

author = "Priyadharshini, \{V. J.\} and D. Gopinath and A. Meharajbegum and \{Bruno Chandrasekar\}, L. and \{Rafi Ahamed\}, S. and Lalitha Gnanasekaran",

note = "Publisher Copyright: {\textcopyright} 2025 World Scientific Publishing Company.",

year = "2025",

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doi = "10.1142/S201032472450022X",

language = "English",

volume = "15",

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T1 - The Effect of In-Plane Wave Vector and Heterostructure Strain on Spin-Transport Properties in ZnO/ZnCdO Heterostructure

AU - Priyadharshini, V. J.

AU - Gopinath, D.

AU - Meharajbegum, A.

AU - Bruno Chandrasekar, L.

AU - Rafi Ahamed, S.

AU - Gnanasekaran, Lalitha

PY - 2025/2/1

Y1 - 2025/2/1

N2 - The effect of in-plane wave vectors on spin-dependent transport properties is examined theoretically. In this work, ZnO/Zn1-xCdxO double barrier-heterostructure with an identical barrier width of 30 Å is considered. The transmission coefficient is calculated by using the transfer matrix. The role of Dresselhaus spin-orbit coupling is accounted. The in-plane wave vector influences the energy separation between different orientations of the electrons. The spin separation ranges from 0.002meV to 0.008meV as the in-plane wave vector changes from 1×108/m to 5×108/m. The degree of spin polarization is enhanced at the high magnitude of the in-plane wave vector. The dwell time of the incident electrons is examined. The role of heterostructure strain on spin-transport properties is also reported. About 73% of polarization efficiency is observed in this study when the heterostructure strain is observed.

AB - The effect of in-plane wave vectors on spin-dependent transport properties is examined theoretically. In this work, ZnO/Zn1-xCdxO double barrier-heterostructure with an identical barrier width of 30 Å is considered. The transmission coefficient is calculated by using the transfer matrix. The role of Dresselhaus spin-orbit coupling is accounted. The in-plane wave vector influences the energy separation between different orientations of the electrons. The spin separation ranges from 0.002meV to 0.008meV as the in-plane wave vector changes from 1×108/m to 5×108/m. The degree of spin polarization is enhanced at the high magnitude of the in-plane wave vector. The dwell time of the incident electrons is examined. The role of heterostructure strain on spin-transport properties is also reported. About 73% of polarization efficiency is observed in this study when the heterostructure strain is observed.

KW - Dresselhaus

KW - dwell time

KW - Heterostructure

KW - spin polarization

UR - https://www.scopus.com/pages/publications/85218794860

U2 - 10.1142/S201032472450022X

DO - 10.1142/S201032472450022X

M3 - Article

AN - SCOPUS:85218794860

SN - 2010-3247

VL - 15

JO - SPIN

JF - SPIN

IS - 1

M1 - 2450022

ER -

The Effect of In-Plane Wave Vector and Heterostructure Strain on Spin-Transport Properties in ZnO/ZnCdO Heterostructure

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