What question did this study set out to answer?

The aim is to understand the ultrafast manipulation of antiferromagnetic materials using optical and infrared laser pulses.

March 28, 2026Open Access

Ultrafast manipulation of antiferromagnets by optical and infrared pulses

Key Points

The aim is to understand the ultrafast manipulation of antiferromagnetic materials using optical and infrared laser pulses.
Investigated spin dynamics of antiferromagnets with laser pulses.
Utilized various laser sources across visible to far-infrared energies.
Analyzed the effects on magnetic moments in subpicosecond timescales.
Demonstrated faster response in antiferromagnets compared to ferromagnets.
Observed new phenomena like nonlinear responses and photoinduced phase transitions.
Highlighted the potential for next-generation spintronic devices.

Abstract

The manipulation of material properties on the timescale shorter than subpicoseconds paves the way for the observation of new phenomena, such as strongly nonlinear responses and instantaneous photoinduced phase transitions. From the perspective of magnetism, this represents a promising approach to accelerating the response speed of magnetic moments compared to traditional electrical methods. This could enable the realization of next-generation spin devices based on antiferromagnets, materials with antiparallel spin order, which exhibit a faster response in the terahertz frequency range compared to that of ferromagnets. We investigated antiferromagnetic spin dynamics driven by various laser sources with photon energies spanning from the visible to the farinfrared spectral regions.

Ultrafast manipulation of antiferromagnets by optical and infrared pulses

Key Points

Abstract

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