Forschende haben mithilfe von Neutronen untersucht, wie sich Hybridimplantate aus Magnesium und Titan im Körper verändern. Die Ergebnisse liefern wichtige Grundlagen für die Entwicklung verbesserter Implantate.
Forschende haben mithilfe von Neutronen untersucht, wie sich Hybridimplantate aus Magnesium und Titan im Körper verändern. Die Ergebnisse liefern wichtige Grundlagen für die Entwicklung verbesserter Implantate. © Adobe Stock
23.02.2026
Health Innovation
5 min

Wie Wasserstoff Titanimplantate beeinflusst

Forschende untersuchen an der Schweizer Spallations-Neutronenquelle SINQ, wie sich medizinische Implantate im Körper verändern.

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Im Treppenhaus des Park Innovaare unterhalten sich Lea Caminada, Leiterin der Forschungsruppe für Hochenergiephysik am Zentrum für Neutronen- und Myonenforschung des PSI, und Wolfram Erdmann, Projektleiter des europaweiten Konsortiums, das einen bedeutenden Teil des nächsten CMS-Detektors am CERN baut.
Im Treppenhaus des Park Innovaare unterhalten sich Lea Caminada, Leiterin der Forschungsruppe für Hochenergiephysik am Zentrum für Neutronen- und Myonenforschung des PSI, und Wolfram Erdmann, Projektleiter des europaweiten Konsortiums, das einen bedeutenden Teil des nächsten CMS-Detektors am CERN baut. © Paul Scherrer Institut PSI/Markus Fischer
04.02.2026
Zukunftstechnologien
10 min

Eintausend Module für das CERN

Am CERN bei Genf werden kleinste Teilchen mit höchsten Energien aufeinander geschossen, um die grossen Fragen zum Universum zu klären. Die Detektoren, die die Teilchenkollisionen beobachten, benötigen immer wieder ein Upgrade. Lea Caminada und ihre Forschungsgruppe für Hochenergiephysik am PSI spielen dabei eine wichtige Rolle.

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adobestock
30.01.2026
Zukunftstechnologien
6 min

Wichtige Förderung für die Myonenforschung

Das PSI erhält einen NCCR: Mit dem Projekt «Muoniverse» wird die Forschung an den Strahllinien für Elementarteilchen namens Myonen weiter ausgebaut – an der weltweit führenden Anlage für Myonenstrahlen.

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Thomas Prokscha
Thomas Prokscha leitet ad interim das Labor für Myonenspin-Spektroskopie. © Paul Scherrer Institut PSI/Markus Fischer
27.01.2026
Grossforschungsanlagen
11 min

«Wir ziehen alle Register»

Das PSI steigert die Intensität seiner Myonenstrahlen um das Hundertfache. Das bietet völlig neue Möglichkeiten für Physik und Materialforschung.

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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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Dr. Theresia Heiden-Hecht (left) and Maren Müller (right) from Forschungszentrum Jülich
Health Innovation

Green biomass as a sustainable source of protein

SINQ

The food industry is increasingly focusing on sustainable products. Proteins from green biomass are a promising option, as a research team involving the MLZ has discovered. These can be used, for example, as stabilisers in emulsions, such as in plant-based alternatives to yogurt, milk, ice cream, or cheese.

Khasanov et al
Large research facilities

Oxygen-isotope effect on the density wave transitions in La3⁢Ni2⁢O7

SμS

The isotope effect is a powerful probe of electron-phonon interactions in solid-state systems, offering key insights into how atomic mass influences emergent quantum states. Here, the impact of oxygen-isotope substitution (16O→18O) on charge- and spin-density wave (CDW and SDW) transitions in the double-layer Ruddlesden-Popper nickelate La3⁢Ni2⁢O7 is investigated ...

Khasanov et al
Large research facilities

Pressure and oxygen-isotope substitution on density-wave transitions in La4⁢Ni3⁢O10

SμS SINQ

Understanding the interplay between magnetism and superconductivity in nickelate systems is a key objective in condensed matter physics. Gaining microscopic insights into magnetism—particularly as it emerges near superconductivity—requires a synergistic approach that combines complementary experimental techniques with controlled tuning of external parameters. In this paper, we present ...

Bao et al

Magnetic Signature of Chiral Phonons Revealed by Neutron Spectroscopy in Ferrimagnetic Fe1.75Zn0.25Mo3O8

SINQ

Lattice vibrations can carry angular momentum and magnetic moments under broken inversion or time-reversal symmetry, forming so-called chiral phonons. While such excitations have been explored in nonmagnetic systems via optical probes, their direct detection in magnetic materials and coupling to spin excitations remain largely unexplored. Here, using neutron spectroscopy,  ...

Forslund et al

Topological metal-insulator transition within the ferromagnetic state

SINQ

A major challenge in condensed matter physics is integrating topological phenomena with correlated electron physics to leverage both types of states for next-generation quantum devices. Metal-insulator transitions are central to bridging these two domains while simultaneously serving as on-off switches for electronic states. Here, we demonstrate  ...

Karube et al

Room-Temperature Magnetic Skyrmions and Intrinsic Anomalous Hall Effect in a Nodal-Line Kagomé Ferromagnet MnRhP

SINQ

Topological magnetic semimetals with kagomé lattices have attracted significant attention due to their nontrivial electronic band structures and pronounced electromagnetic responses. The search for kagomé-lattice topological semimetals exhibiting magnetic ordering above room temperature is essential  ...

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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.
  • Hayrapetyan A, Makarenko V, Tumasyan A, Adam W, Andrejkovic JW, Benato L, et al.
    Observation of tWZ production at the CMS experiment
    Physical Review Letters. 2026; 136(8): 081802 (23 pp.). https://doi.org/10.1103/rk6w-1pcl
    DORA PSI
  • Gruber K, Polatidis E, Čapek J, Busi M, Królicka A, Mackiewicz A, et al.
    Powder-level carbide modification controls HIP grain growth and enhances fatigue in reused additively manufactured superalloy
    Additive Manufacturing. 2026; 121: 105152 (16 pp.). https://doi.org/10.1016/j.addma.2026.105152
    DORA PSI
  • Abramowicz H, Adli E, Alharthi F, Almanza-Soto M, Altakach MM, Altmannshofer W, et al.
    A linear collider vision for the future of particle physics
    European Physical Journal Special Topics. 2026. https://doi.org/10.1140/epjs/s11734-026-02153-w
    DORA PSI
  • Yan B, Riddiford LJ, Hrabec A, Mechnich A, Gillioz V, Degen CL, et al.
    Optical manipulation of multiferroic phases in BiFeO3 thin films
    Advanced Materials Interfaces. 2026. https://doi.org/10.1002/admi.202501087
    DORA PSI
  • Ferro M, Amaro P, Sustelo L, Fernandes LMP, Gründeman EL, Guerra M, et al.
    Laser excitation of muonic 1S hydrogen hyperfine transition: effects of multi-pass cell interference
    Molecular Physics. 2026: e2636085 (10 pp.). https://doi.org/10.1080/00268976.2026.2636085
    DORA PSI
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300

The CNM center hosts 300 members of staff, in addition 40 PhD students perform their thesis work within CNM

5+1

The center is organized in 5 laboratories and 1 staff group.

3/30

CNM operates 3 of the 5 large scale user facilities: the Swiss spallation neutron source SINQ, the Swiss Muon Source SμS and the facilities for particle physics CHIRSP with approximately 30 experimental stations open for users.

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The facilities in the CNM center are open to international access — with approximately 1700 annual user visits the associated user program is a key activity for the center and for PSI as a whole.
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Paul Scherrer Institut
Center for Neutron and Muon Sciences CNM

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5232 Villigen PSI
Switzerland