Quantum Kinetic Anatomy of Electron Angular Momenta Edge Accumulation

Thierry Valet; Henri Jaffrès; Vincent Cros; Roberto Raimondi

doi:10.1103/86cm-yn9z

Quantum Kinetic Anatomy of Electron Angular Momenta Edge Accumulation

Thierry Valet
, Henri Jaffrès
, Vincent Cros
, Roberto Raimondi

MPhysX OÜ
Université Paris-Saclay
University Roma Tre

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

Abstract

Controlling electron spin and orbital degrees of freedom has been a major research focus over the past two decades, as it underpins the electrical manipulation of magnetization. Leveraging a recently introduced quantum kinetic theory of multiband systems [T. Valet and R. Raimondi , Phys. Rev. B111, L041118 (2025) PRBMDO 2469-9950 10.1103/PhysRevB.111.L041118], we outline how the intrinsic angular momenta linear response is partitioned into intra- and interband contributions. Focusing on time reversal and inversion symmetric metals, we show that the spin and orbital Hall currents are purely intraband. We also reveal that the intrinsic edge densities originate partially, and in the orbital case possibly mostly, from a new interband mechanism. We discuss how this profoundly impacts the interpretation of orbital edge accumulation observations and has broader implications for current-induced torques.

Original language	English
Article number	256301
Journal	Physical Review Letters
Volume	135
Issue number	25
DOIs	https://doi.org/10.1103/86cm-yn9z
Publication status	Published - 19 Dec 2025
Externally published	Yes

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title = "Quantum Kinetic Anatomy of Electron Angular Momenta Edge Accumulation",

abstract = "Controlling electron spin and orbital degrees of freedom has been a major research focus over the past two decades, as it underpins the electrical manipulation of magnetization. Leveraging a recently introduced quantum kinetic theory of multiband systems [T. Valet and R. Raimondi , Phys. Rev. B111, L041118 (2025) PRBMDO 2469-9950 10.1103/PhysRevB.111.L041118], we outline how the intrinsic angular momenta linear response is partitioned into intra- and interband contributions. Focusing on time reversal and inversion symmetric metals, we show that the spin and orbital Hall currents are purely intraband. We also reveal that the intrinsic edge densities originate partially, and in the orbital case possibly mostly, from a new interband mechanism. We discuss how this profoundly impacts the interpretation of orbital edge accumulation observations and has broader implications for current-induced torques.",

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T1 - Quantum Kinetic Anatomy of Electron Angular Momenta Edge Accumulation

AU - Valet, Thierry

AU - Jaffrès, Henri

AU - Cros, Vincent

AU - Raimondi, Roberto

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N2 - Controlling electron spin and orbital degrees of freedom has been a major research focus over the past two decades, as it underpins the electrical manipulation of magnetization. Leveraging a recently introduced quantum kinetic theory of multiband systems [T. Valet and R. Raimondi , Phys. Rev. B111, L041118 (2025) PRBMDO 2469-9950 10.1103/PhysRevB.111.L041118], we outline how the intrinsic angular momenta linear response is partitioned into intra- and interband contributions. Focusing on time reversal and inversion symmetric metals, we show that the spin and orbital Hall currents are purely intraband. We also reveal that the intrinsic edge densities originate partially, and in the orbital case possibly mostly, from a new interband mechanism. We discuss how this profoundly impacts the interpretation of orbital edge accumulation observations and has broader implications for current-induced torques.

AB - Controlling electron spin and orbital degrees of freedom has been a major research focus over the past two decades, as it underpins the electrical manipulation of magnetization. Leveraging a recently introduced quantum kinetic theory of multiband systems [T. Valet and R. Raimondi , Phys. Rev. B111, L041118 (2025) PRBMDO 2469-9950 10.1103/PhysRevB.111.L041118], we outline how the intrinsic angular momenta linear response is partitioned into intra- and interband contributions. Focusing on time reversal and inversion symmetric metals, we show that the spin and orbital Hall currents are purely intraband. We also reveal that the intrinsic edge densities originate partially, and in the orbital case possibly mostly, from a new interband mechanism. We discuss how this profoundly impacts the interpretation of orbital edge accumulation observations and has broader implications for current-induced torques.

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Quantum Kinetic Anatomy of Electron Angular Momenta Edge Accumulation

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