David Burn
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Physical Review Letters front cover

Physical Review Letters
Structural chirality of polar skyrmions probed by resonant elastic x-ray scattering


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Shining a Light on Hidden Spin Dynamics

APS Viewpoints
Depth-Resolved Magnetization Dynamics Revealed by X-Ray Reflectometry Ferromagnetic Resonance


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High-speed devices – What happens beneath the surface?

Diamond Science Highlights
Depth-Resolved Magnetization Dynamics Revealed by X-Ray Reflectometry Ferromagnetic Resonance


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Spin Current in an Antiferromagnet is Coherent

APS Viewpoints
Coherent transfer of spin angular momentum by evanescent spin waves within antiferromagnetic NiO


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Coherent Transfer of Spin Angular Momentum by Evanescent Spin Waves within Antiferromagnetic NiO

Diamond scientific highlights
Coherent transfer of spin angular momentum by evanescent spin waves within antiferromagnetic NiO


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Antiferromagnet Transmits Coherent Spin Waves

ALS scientific highlights
Coherent transfer of spin angular momentum by evanescent spin waves within antiferromagnetic NiO


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New breakthrough in ‘spintronics’ could boost high speed data technology

Exeter science highlights
Coherent transfer of spin angular momentum by evanescent spin waves within antiferromagnetic NiO


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Skyrmions on the surface - A new topological magnetic state discovered by resonant elastic scattering of X-rays on SEXTANTS

Soleil news
Robust Perpendicular Skyrmions and Their Surface-Confinement


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Discovery of a novel magnetic skyrmion surface state

Diamond Science Highlights
Robust Perpendicular Skyrmions and Their Surface-Confinement


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Picosecond magnetization dynamics of spin modes revealed by diffractive ferromagnetic resonance

Diamond Science Highlights
Mode-resolved detection of magnetization dynamics using diffractive ferromagnetic resonance


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Controlling magnetic skyrmion motion without an electric current

Diamond Science Highlights
Manipulation of skyrmion motion by magnetic field gradients


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New way to write magnetic info could pave the way for hardware neural networks

Imperial News
Realization of ground state in artificial kagome spin ice via topological defect-driven magnetic writing


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Write it as you like it

news and views from nature Nano
Realization of ground state in artificial kagome spin ice via topological defect-driven magnetic writing


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Magnetic skyrmion lattice domain manipulation enables new memory technology

Diamond science highlights
Multidomain Skyrmion Lattice State in Cu2OSeO3


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Getting a grip on skyrmions

Diamond science highlights
Multidomain Skyrmion Lattice State in Cu2OSeO3




David Burn
Diamond Light Source
Didcot
Oxfordshire
OX11 0DE

david.burn@diamond.ac.uk
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