Electric-Field Tunable Anisotropic g-Factor Induced by Spin Pumping

Jian Shao; Matthias Kronseder; Jianping Guo; Maximilian Mangold; Dong Pan; Thomas N.G. Meier; Weiwei Zhao; Jianhua Zhao; Christian H. Back; Lin Chen

doi:10.1021/acs.nanolett.5c05536

Electric-Field Tunable Anisotropic g-Factor Induced by Spin Pumping

Jian Shao
, Matthias Kronseder
, Jianping Guo
, Maximilian Mangold
, Dong Pan
, Thomas N.G. Meier
, Weiwei Zhao^*
, Jianhua Zhao
, Christian H. Back
, Lin Chen^*

^*Corresponding author for this work

Hangzhou International Innovation Institute

Research output: Contribution to journal › Article › peer-review

Abstract

Spin pumping, a well-established phenomenon where the precessing magnetization of a ferromagnet (FM) injects a pure spin current into an adjacent nonmagnetic layer, is characteristically identified by the enhancement of magnetic damping in the FM. Theoretical work has also suggested that spin pumping can affect the Landé g-factor─another key parameter of ferromagnetic materials besides the magnetic damping. However, experimental evidence of this effect has remained limited. Here, we demonstrate that spin pumping can lead to significant modulation of the g-factor in a Py/AlO_x/STO two-dimensional electron gas (2DEG) system with strong spin–orbit interaction. Specifically, we observe an anisotropic g-factor with 2-fold symmetry below the onset temperature of the 2DEG, and furthermore this anisotropy can be tuned when applying an external electric field. This work uncovers a previously overlooked effect and offers new possibilities for controlling magnetization dynamics in systems with a reduced dimension.

Original language	English
Pages (from-to)	2853-2860
Number of pages	8
Journal	Nano Letters
Volume	26
Issue number	8
DOIs	https://doi.org/10.1021/acs.nanolett.5c05536
State	Published - 4 Mar 2026

Keywords

2DEG
Landé g-factor
electric-field control of magnetism
spin pumping
spin−orbit interaction

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10.1021/acs.nanolett.5c05536

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@article{d6042fa6414548aeb3b4953bbe02a72e,

title = "Electric-Field Tunable Anisotropic g-Factor Induced by Spin Pumping",

abstract = "Spin pumping, a well-established phenomenon where the precessing magnetization of a ferromagnet (FM) injects a pure spin current into an adjacent nonmagnetic layer, is characteristically identified by the enhancement of magnetic damping in the FM. Theoretical work has also suggested that spin pumping can affect the Land{\'e} g-factor─another key parameter of ferromagnetic materials besides the magnetic damping. However, experimental evidence of this effect has remained limited. Here, we demonstrate that spin pumping can lead to significant modulation of the g-factor in a Py/AlOx/STO two-dimensional electron gas (2DEG) system with strong spin–orbit interaction. Specifically, we observe an anisotropic g-factor with 2-fold symmetry below the onset temperature of the 2DEG, and furthermore this anisotropy can be tuned when applying an external electric field. This work uncovers a previously overlooked effect and offers new possibilities for controlling magnetization dynamics in systems with a reduced dimension.",

keywords = "2DEG, Land{\'e} g-factor, electric-field control of magnetism, spin pumping, spin−orbit interaction",

author = "Jian Shao and Matthias Kronseder and Jianping Guo and Maximilian Mangold and Dong Pan and Meier, \{Thomas N.G.\} and Weiwei Zhao and Jianhua Zhao and Back, \{Christian H.\} and Lin Chen",

note = "Publisher Copyright: {\textcopyright} 2026 The Authors. Published by American Chemical Society",

year = "2026",

month = mar,

day = "4",

doi = "10.1021/acs.nanolett.5c05536",

language = "英语",

volume = "26",

pages = "2853--2860",

journal = "Nano Letters",

issn = "1530-6984",

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TY - JOUR

T1 - Electric-Field Tunable Anisotropic g-Factor Induced by Spin Pumping

AU - Shao, Jian

AU - Kronseder, Matthias

AU - Guo, Jianping

AU - Mangold, Maximilian

AU - Pan, Dong

AU - Meier, Thomas N.G.

AU - Zhao, Weiwei

AU - Zhao, Jianhua

AU - Back, Christian H.

AU - Chen, Lin

PY - 2026/3/4

Y1 - 2026/3/4

N2 - Spin pumping, a well-established phenomenon where the precessing magnetization of a ferromagnet (FM) injects a pure spin current into an adjacent nonmagnetic layer, is characteristically identified by the enhancement of magnetic damping in the FM. Theoretical work has also suggested that spin pumping can affect the Landé g-factor─another key parameter of ferromagnetic materials besides the magnetic damping. However, experimental evidence of this effect has remained limited. Here, we demonstrate that spin pumping can lead to significant modulation of the g-factor in a Py/AlOx/STO two-dimensional electron gas (2DEG) system with strong spin–orbit interaction. Specifically, we observe an anisotropic g-factor with 2-fold symmetry below the onset temperature of the 2DEG, and furthermore this anisotropy can be tuned when applying an external electric field. This work uncovers a previously overlooked effect and offers new possibilities for controlling magnetization dynamics in systems with a reduced dimension.

AB - Spin pumping, a well-established phenomenon where the precessing magnetization of a ferromagnet (FM) injects a pure spin current into an adjacent nonmagnetic layer, is characteristically identified by the enhancement of magnetic damping in the FM. Theoretical work has also suggested that spin pumping can affect the Landé g-factor─another key parameter of ferromagnetic materials besides the magnetic damping. However, experimental evidence of this effect has remained limited. Here, we demonstrate that spin pumping can lead to significant modulation of the g-factor in a Py/AlOx/STO two-dimensional electron gas (2DEG) system with strong spin–orbit interaction. Specifically, we observe an anisotropic g-factor with 2-fold symmetry below the onset temperature of the 2DEG, and furthermore this anisotropy can be tuned when applying an external electric field. This work uncovers a previously overlooked effect and offers new possibilities for controlling magnetization dynamics in systems with a reduced dimension.

KW - 2DEG

KW - Landé g-factor

KW - electric-field control of magnetism

KW - spin pumping

KW - spin−orbit interaction

UR - https://www.scopus.com/pages/publications/105031683840

U2 - 10.1021/acs.nanolett.5c05536

DO - 10.1021/acs.nanolett.5c05536

M3 - 文章

C2 - 41717870

AN - SCOPUS:105031683840

SN - 1530-6984

VL - 26

SP - 2853

EP - 2860

JO - Nano Letters

JF - Nano Letters

IS - 8

ER -

Electric-Field Tunable Anisotropic g-Factor Induced by Spin Pumping

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Keywords

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