Electric fields deflect the propagation direction of magnetic textures, as revealed by neutron scattering
Electric fields deflect the propagation direction of magnetic textures, as revealed by neutron scattering. © Paul Scherrer Institute PSI/ AI-assisted visualisation
16.06.2025
Future Technologies
5 min

Steering magnetic textures with electric fields

Neutrons reveal a new way to control magnetism at the nanoscale

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Betet et al
13.06.2025

Understanding and Addressing the Performance Asymmetry Issue in Semitransparent Laminated Organic Photovoltaic Devices

Organic photovoltaics (OPVs) offer a promising solution for indoor energy harvesting. However, fundamental investigations to understand and optimize industrial processes such as roll-to-roll lamination for upscaling remain limited. This study investigates a critical failure mode in the upscaling of OPVs. 

One major challenge ...

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Morano et al
04.06.2025

Absence of Altermagnetic Magnon Band Splitting in MnF2

Altermagnets are collinear compensated magnets in which the magnetic sublattices are related by rotation rather than translation or inversion. One of the quintessential properties of altermagnets is the presence of split chiral magnon modes. Recently, such modes have been predicted in MnF2

Here, we report inelastic neutron scattering results ...

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Graham et al
15.05.2025

Tailoring the Normal and Superconducting State Properties of Ternary Scandium Tellurides, Sc6MTe2 (M = Fe, Ru, and Ir) Through Chemical Substitution

The pursuit of a unifying theory for non-BCS superconductivity has faced significant challenges. One approach to overcome such challenges is to perform systematic investigations into superconductors containing d-electron metals in order to elucidate their underlying mechanisms. Recently, the Sc6MTe2 (M = d-electron metal) family has emerged as a unique series of isostructural compounds exhibiting superconductivity across a range of 3d, 4d, and 5d electron systems. 

In this study, muon spin rotation, neutron diffraction, and magnetization techniques are employed to probe ...

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Laboratory for Neutron Scattering and Imaging (LNS)

The PSI Laboratory for Neutron Scattering and Imaging conducts cutting-edge research at the Swiss Spallation Neutron Source SINQ.

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Wang et al

Achieving Uniform Phase Structure for Layer-by-Layer Processed Binary Organic Solar Cells with 20.2% Efficiency

Layer-by-layer (LBL) deposition has become a facile and promising method to fabricate highly efficient organic solar cells (OSCs). However, characterization and optimization of 3D morphology remain a grand challenge for LBL- processed active layers, and their correlation with photovoltaic properties of OSC devices is not clear to date. 

Here, to address this issue, ...

Park et al

Spin density wave and van Hove singularity in the kagome metal CeTi3Bi4

Kagome metals with van Hove singularities near the Fermi level can host intriguing quantum phenomena such as chiral loop currents, electronic nematicity, and unconventional superconductivity. However, to our best knowledge, unconventional magnetic states driven by van Hove singularities–like spin-density waves–have not been observed experimentally in kagome metals. Here, we report ...

Mirzaei et al

4D imaging of frost heave and ice lens growth in silt using neutron and x-ray computed tomography

There are substantial changes in soil structure in regions where the soil is freezing. Water movements in the freezing soil introduce level changes beyond what can be expected by the expansion of water when it freezes. The impact of frost heave is seasonal damage to our built environment ...

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07
Aug
07. August 2025 10:30 - 12:00
Seminar
SZ WHGA/121
07
Aug

LNS seminar with Dr. Gøran Nilsen, ISIS

Dr. Gøran Nilsen, ISIS
15
Aug
15. August 2025 11:15 - 12:15
Auditorium (WHGA/001)
15
Aug

From PSI Founder Fellowship to a successful biotech start-up: An exciting journey

Dr. Philipp Spycher, CSO, Araris Biotech AG
21
Aug
21. August 2025 10:30 - 12:00
Seminar
SZ WHGA/121
21
Aug

LNS seminar with Maths Karlsson, Chalmers University, Sweden

Maths Karlsson, Chalmers University, Sweden
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