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
Zukunftstechnologien
5 min

Steering magnetic textures with electric fields

Neutrons reveal a new way to control magnetism at the nanoscale

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© Adobe Stock
PSI-Forschende haben den Ladungsradius von Helium-3 mithilfe von myonischem Helium erstmals mit bislang unerreichter Präzision vermessen – ein Meilenstein für die Theorie leichter Atomkerne. Das Bild illustriert den Helium-3-Kern mit zwei Protonen (rot) und einem Neutron (gelb). © Adobe Stock
22.05.2025
Grundlagen der Natur
8 min

Neue Massstäbe in der Kernphysik

Mit bislang unerreichter Präzision: PSI-Forschende vermessen den Kernradius von myonischem Helium-3 und stellen die Theorien der Atomphysik auf den Prüfstand. 

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Römische Miniaturschloss aus dem 3. oder 4. Jahrhundert nach Christus
Das römische Miniaturschloss aus dem 3. oder 4. Jahrhundert nach Christus – kaum grösser als ein Fingernagel, kunstvoll gefertigt aus Gold. Der innere Eisenmechanismus blieb lange verborgen, da herkömmliche bildgebende Verfahren an der dichten Goldhülle scheiterten. Erst mithilfe der Neutronentomografie am PSI konnte das Schloss zerstörungsfrei entschlüsselt werden. © LWL/S. Brentführer
01.05.2025
Grossforschungsanlagen
9 min

Ein goldener Winzling aus der Römerzeit

David Mannes vom PSI lüftete mithilfe von Neutronen das Geheimnis eines faszinierenden archäologischen Fundstücks.

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Christian Rüegg
18.12.2024
Grossforschungsanlagen
7 min

IMPACT: Upgrade an PSI-Forschungsanlage beschlossen

Die Finanzierung der Umbauten an der Protonenbeschleunigeranlage des PSI wurde vom Schweizer Parlament bewilligt.

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PSI Center for Neutron and Muon Sciences

The PSI Center for Neutron and Muon Sciences uses neutrons and muons to explore and understand matter and materials.

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Shang et al

Discovery of Nodal-Line Superconductivity in Chiral Crystals

Chiral crystals, whose key feature is the structural handedness, host exotic quantum phenomena driven by the interplay of band topology, spin-orbit coupling (SOC), and electronic correlations. Due to the limited availability of suitable chiral-crystal materials, their unconventional superconductivity (SC) remains largely unexplored. 

Here, the discovery ... 

Singh et al

Ferroaxial density wave from intertwined charge and orbital order in rare-earth tritellurides

The discovery of the axial amplitude mode—commonly referred to as the Higgs mode—in charge density wave systems, such as rare-earth tritellurides, indicates the presence of a hidden order. A theoretical study proposed that this axial Higgs mode arises from a hidden orbital texture of the charge density wave, which produces a ferroaxial charge order.

However, experimental evidence ... 

WOPM 2025 - Participants

WOPM2025 at PSI - Workshop on optically-pumped magnetometers

From August 6 to 8, the 2025 workshop on 'Optically-Pumped Magnetometers' took place at PSI with a full day of Summer School lectures, followed by scientific sessions attended by 145 researchers from institutions worldwide. 

Lee et al

Observation of Magnetic Pseudogap Behavior in Phosphorus-Doped Silicon

The recent discovery of a Kondo condensate in phosphorus-doped silicon (Si:P) presents its significant potential for achieving novel many-body quantum states. Si:P exhibits Kondo condensation, characterized by an energy gap in the electronic density of states, while the precise nature of its magnetic state has yet to be determined. 

Here, we utilize ...

Ahl et al

Hydration- and Temperature-Dependent Rotational Dynamics and Water Diffusion in Nanocellulose

Nanocellulose is a promising alternative to fossil-derived materials, but its development is hindered by a limited understanding of cellulose–water interactions. Herein, quasielastic neutron scattering (QENS) is used to investigate how hydration and temperature affect the localized rotations in cellulose nanocrystals (CNC) and the diffusion of mobile water. QENS reveals ...

Bhardwaj et al

Bright Monocompound Metal Halide Scintillator for Fast Neutron Radiography

Fast neutron imaging is a promising technique for visualizing objects containing dense, mixed light-and-heavy-elements materials, such as combustion engines, nuclear fuel assemblies, and fossils, where X-rays and thermal neutrons are ineffectiv. However, the limited efficiency of current detection technologies hinders their widespread adoption. Recoil proton detection ...

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More News from CNM

Swiss Spallation Neutron Source SINQ

Neutron scattering techniques are highly versatile and powerful tools for studying the structure and dynamics of condensed matter. A wide scope of problems, ranging from fundamental to solid state physics and chemistry, and from materials science to biology, medicine and environmental science, can be investigated with neutrons. In addition to scattering, non-diffractive methods like imaging techniques allows for non-destructive inspection of materials and components, providing information on their internal structure, composition, and integrity with growing relevance also for industrial applications.
  • Ukleev V, Magrez A, White JS
    Magnetic field-induced chiral soliton lattice in the bulk magnetoelectric helimagnet Cu2OSeO3
    Journal of Applied Physics. 2025; 138(10): 103905 (5 pp.). https://doi.org/10.1063/5.0289322
    DORA PSI
  • Kulbakov AA, Häußler E, Parui KK, Pavlovskii NS, Chakkingal AM, Granovsky SA, et al.
    Spin liquid mimicry in the hydroxide double perovskite CuSn(OD)6 induced by correlated proton disorder
    Physical Review B. 2025; 112(10): L100403 (7 pp.). https://doi.org/10.1103/wp9k-wlhw
    DORA PSI
  • Singh B, McNamara G, Kim KM, Siddique S, Funni SD, Zhang W, et al.
    Ferroaxial density wave from intertwined charge and orbital order in rare-earth tritellurides
    Nature Physics. 2025. https://doi.org/10.1038/s41567-025-03008-2
    DORA PSI
  • Parchenko S, Hofhuis K, Larsson AÅ, Kapaklis V, Scagnoli V, Heyderman LJ, et al.
    Plasmon‐enhanced optical control of magnetism at the nanoscale via the inverse Faraday effect
    Advanced Photonics Research. 2025; 6(1): 2400083 (10 pp.). https://doi.org/10.1002/adpr.202400083
    DORA PSI
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