PSI Center for Neutron and Muon Sciences

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.

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

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Recent News & Scientific Highlights

15.05.2026

•Large research facilities

SINQ call for proposals is closed now

SINQ

The SINQ call II-26 is closed now.

11.05.2026

•Large research facilities

Alkali-Metal Interlocking of 2D V₄O₁₀ Sheets Defines Discretized Interlayer Shear Relationships

SINQ

Low-dimensional materials manifest structural anisotropy, quantum confinement, and tightly bound excitonic states, which make them attractive building blocks that can be assembled within three-dimensional laterally stitched heterostructures, stacked van der Waals solids, and complex moiré superlattices ...

04.05.2026

•Large research facilities

Cascade of Spin Moiré Superlattices with In-Plane Field in Triangular Lattice Semimetal EuAg₄Sb₂

SINQ

EuAg₄Sb₂ is a rhombohedral europium triangular lattice material that exhibits a rich phase diagram of spin moiré superlattices (SMS) and single-q magnetic phases. In this paper, we characterize ...

04.05.2026

•Large research facilities

SμS call for proposals II-26 is open

SμS

The call for SμS proposals II-26 (deadline 01 June 2026) is open now.

30.04.2026

•Large research facilities

SINQ++ Workshop at PSI

SINQ

A SINQ++ Workshop was held at PSI on 29 - 30 April 2026 to develop and test the emerging Science Case that will define the future of SINQ.

29.04.2026

•Large research facilities

Experimental observation of short-range magnetic correlations in amorphous Nb₂O₅ and Ta₂O₅ thin films

SμS

We use muon spin rotation/relaxation/resonance (μSR) to investigate the magnetic properties of niobium pentoxide (Nb₂O₅) and tantalum pentoxide (Ta₂O₅) thin films. In both oxides, we observe a magnetic response at the lowest available temperature of 2.8 K ...

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More News from CNM

Our Facilities

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.

Swiss Muon Source SμS

The Swiss muon source – powered by the PSI 590 MeV cyclotron with a proton current of 2200 mA – is the world's most intense continuous beam muon source. The proton beam hits two graphite targets. Attached to those are seven beamlines for muon (or pion) extraction, two of them are equipped with superconducting decay channels. The available muon energies range from 0.5 keV to 60 MeV.

Swiss Research Infrastructure for Particle Physics CHRISP

With particle beams made up of pions, muons, neutrons, protons, and electrons, researchers are investigating how our universe is constructed. The Swiss research infrastructure for particle physics – CHRISP – enables them to determine fundamental natural constants with the greatest precision and to look for deviations from the current standard model of particle physics.

Latest CNM publications

Chekhovsky V, Hayrapetyan A, Makarenko V, Tumasyan A, Adam W, Andrejkovic JW, et al.
Jet fragmentation function and groomed substructure of bottom quark jets in proton-proton collisions at 5.02 TeV
Journal of High Energy Physics. 2026; 2026(4): 147 (47 pp.). https://doi.org/10.1007/JHEP04(2026)147
DORA PSI
Bertin A, Kiefer L, Pomjakushin V, Fabelo O, Becker P, Bohatý L, et al.
Structural studies on A₂ReCl₆ (A = K, Rb, Cs): absence of Jahn-Teller distortion
Physical Review B. 2026; 113(6): 064422 (14 pp.). https://doi.org/10.1103/JHCN-VJ32
DORA PSI
Druzhkin D, Borshch V, Babaev A, Uzunian A, Slabospitskii S, Kachanov V, et al.
High-precision measurement of the W boson mass with the CMS experiment
Nature. 2026; 652(8109): 321-327. https://doi.org/10.1038/s41586-026-10168-5
DORA PSI
Cao Y, Liu A, Wang B, Zhang M, Qi Y, Hiçken TJ, et al.
Complex spin density wave ordering in La₄Ni₃O₁₀
Physical Review B. 2026; 112(17): 174423 (6 pp.). https://doi.org/10.1103/NCV2-7XNW
DORA PSI
Ratvasky R, Rostomyan T, Ali M, Atac H, Barchetti F, Bernauer JC, et al.
The MUSE Target Chamber Post Veto
Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 2026; 1090: 171621 (17 pp.). https://doi.org/10.1016/j.nima.2026.171621
DORA PSI

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Upcoming Events

Mai

22. Mai 2026 • 11:15 - 12:15

•Auditorium (WHGA/001)

Mai

The fast rise of photovoltaics: from advanced research to new products, from China to Switzerland

Prof. Christophe Ballif

Mai

29. Mai 2026 • 11:15 - 23:15

Mai

Condensed Matter Colloquium with Prof. J. Faist, ETHZ

Prof. J. Faist, ETHZ

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The PSI Center for Neutron and Muon Sciences in figures

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.

1700

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.