Shifting away from nuclear energy, expanding solar and wind power, generating energy from biomass, reducing energy consumption. Switzerland is committed to becoming climate-neutral by 2050. An ambitious goal, which has become more urgent than ever due to the increasingly challenging geopolitical situation. How can a sustainable and resilient energy supply for Switzerland be established over the coming years? What's the optimal way to use renewable energy sources? What new technologies are especially promising? At PSI, researchers are seeking answers to these crucial questions.
In situ tension-tension strain path changes of cold-rolled Mg AZ31B
The mechanical behavior of cold-rolled Mg AZ31B is studied during in-plane multiaxial loading and tension-tension strain path changes using in situ neutron diffraction and electron backscatter diffracion.
Multiple-q noncollinear magnetism in an itinerant hexagonal magnet
Multiple-q spin order, i.e., a spin texture characterized by a multiple number of coexisting magnetic modulation vec- tors q, has recently attracted attention as a source of nontrivial magnetic topology and associated emergent phenome- na. One typical example is the triple-q skyrmion lattice state stabilized by Dzyaloshinskii-Moriya interactions in noncentrosymmetric magnets, while the emergence of various multiple-q states of different origins is expected according to the latest theories.
Woman in Science
Congratulations to our former postdoc, Alexandra Palla-Papavlu (4th from the left), for winning the L’Oreal Prize for Woman in Science(link is external) in the category Physics in Romania
Adsorption and Interfacial Layer Structure of Unmodified Nanocrystalline Cellulose at Air/Water Interfaces
Nanocrystalline cellulose (NCC) is a promising biological nanoparticle for the stabilization of fluid interfaces, which is however poorly understood due to the inability to form controlled NCC interfacial layers. Herein we present parameters that allow the adsorption of unmodified NCC at the air-water (A/W) interface. Initial NCC adsorption is limited by diffusion, followed by monolayer saturation and decrease in surface tension at the time scale of hours.
Molten Salt Reactor research at LSM/NES
MSR research at LSM has 3 main justifications:
1. education purpose (2 PhD & 8 MSc internal students, 3 PhD & 4 other guests)
2. technology monitoring (it is the most revolutionary GIV system)
3. novel research topics (liquid phase of the fuel introduces many challenges)
Two major research objectives in NES:
1. safety: evaluate system behavior in nominal and transient conditions (tight multi‐physics coupling / H2020 SAMOFAR project)
2. sustainability: evaluate if the concept can use legacy nuclear waste as initial fuel, insure a high resource utilization (high burning)
On the go at 200 kilometres per hour
Fabia Gozzo is no woman for the comfort zone. First she made a beamline at the Swiss Light Source SLS of the Paul Scherrer Institute PSI into one of the world's leading facilities. Today she is making her knowledge available to industry with her spin-off.
Information Event Mentoring Programmes for Women at PSI and within the ETH Domain
An information Event for Mentoring Programs will take place on Thursday, 6th December 2018, from 08:30 to 10:30 a.m.
Date: Thursday, 6th December, 2018, 8:30 to 10:30 a.m.
Place: PSI, SZ-OSGA/EG06 (large room Education Center)
Please register by Monday, 3rd December, 2018 at mentoring@psi.ch0 Unternehmen teilgenommen.
A crystal-clear picture
Fast and accurate data collection for macromolecular crystallography using the JUNGFRAU detector.
Nationaler Zukunftstag 2018
Am Zukunftstag 2018 durften wir 42 Mädchen und 68 Jungs der 5. bis 7. Klasse, im PSI begrüssen. Während einem halbtägigen Programm wurden 12 betreute Stationen von unseren motivierten Fachleuten angeboten. Danke an alle engagierten Helferinnen und Helfer!
Linking Structure to Dynamics in Protic Ionic Liquids: A Neutron Scattering Study of Correlated and Single-Particle Motions
Coupling between dynamical heterogeneity of ionic liquids and their structural periodicity on different length-scales can be directly probed by quasielastic neutron scattering with polarization analysis. The technique provides the tools to investigate single-particle and cooperative ion motions separately and, thus, dynamics of ion associations affecting the net charge transport can be experimentally explored.
Hector Dejea receives an Outstanding Poster Presentation Award at the bMASR Conference
Hector Dejea, a PhD at TOMCAT, received an Outstanding Poster Presentation Award at the 9th bioMedical Applications of Synchrotron Radiation (bMASR2018) conference held in Beijing (China) from October 23rd till 27th 2018. He presented the latest results of his work, entitled Multiscale X-ray Phase Contrast Imaging for Assessing Cardiac Remodelling: towards in-vitro applications.
Radical Thermometers and Energetics
Methylperoxy radicals are crucial oxidation intermediates and could be synthesized photolytically in an exothermic reaction. Despite their vanishingly small concentration, their temperature could be measured after a few ten thousand collisions inside the reactor, which opens up the possibility of time-resolved operando temperature measurements. Also the reaction energy to yield methyl cations and oxygen could be determined with sub-kJ mol–1 precision, which firmly anchors the methylperoxy energetics to that of well-known stable species and opens up the possibility of highly accurate radical thermochemistry measurements.
Taming Reactive Molecular Magnets
Studying organic molecular magnets is a challenge, because the high-spin diradical character of these compounds dramatically increases the reactivity and reduces the lifetime. Researchers from PSI, ETH Zurich, Wollongong and Melbourne, Australia succeeded in taming the meta-xylylene diradical and were able to study its electronic and thermochemical properties.
Congratulations to Dimitri Osmont
Dimitri successfully defended his PhD at the University of Bern, entitled "Reconstruction of forest fires through chemical analysis of black carbon in ice cores from high- alpine glaciers". This thesis formed part the collaborative project paleo fires with ETH Zürich and University of Bern funded by the Swiss National Science Foundation.
Charges enter the ice age
Scattering experiments establish the partly disordered material CsNiCrF6 as the first verified example of a charge ice — and show that it supports Coulomb phases with correlations in three different degrees of freedom.
Relationship between crystal structure and multiferroic orders in orthorhombic perovskite manganites
We use resonant and nonresonant x-ray diffraction measurements in combination with first-principles electronic structure calculations and Monte Carlo simulations to study the relationship between crystal structure and multiferroic orders in the orthorhombic perovskite manganites, o−RMnO3 (R is a rare-earth cation or Y).
Design of magnetic spirals in layered perovskites: Extending the stability range far beyond room temperature
In insulating materials with ordered magnetic spiral phases, ferroelectricity can emerge owing to the breaking of in- version symmetry. This property is of both fundamental and practical interest, particularly with a view to exploiting it in low-power electronic devices. Advances toward technological applications have been hindered, however, by the rel- atively low ordering temperatures Tspiral of most magnetic spiral phases, which rarely exceed 100 K.
Making the impossible possible
Use of multiferroic materials promises more energy-efficient computers because in these, an electric field would suffice to achieve magnetic data storage. Researchers at PSI have now made such a material suitable for computer operating temperatures.
Rolling dopant and strain in Y-doped BiFeO3 epitaxial thin films for photoelectrochemical water splitting
We report significant photoelectrochemical activity of Y-doped BiFeO3 (Y-BFO) epitaxial thin films deposited on Nb:SrTiO3 substrates. The Y-BFO photoanodes exhibit a strong dependence of the photocurrent values on the thickness of the films, and implicitly on the induced epitaxial strain.
Dynamic volume magnetic domain wall imaging in grain oriented electrical steel at power frequencies with accumulative high-frame rate neutron dark-field imaging
The mobility of magnetic domains forms the link between the basic physical properties of a magnetic material and its global characteristics such as permeability and saturation field. Most commonly, surface domain structure are studied using magneto-optical Kerr microscopy. The limited information depth of approx. 20 nanometers, however, allows only for an indirect interpretation of the internal volume domain structures.
Dynamics of the Coordination Complexes in a Solid-State Mg Electrolyte
Coordination complexes of magnesium borohydride show promising properties as solid electrolytes for magnesium ion batteries and warrant a thorough microscopic description of factors governing their mobility properties. Here, the dynamics of Mg(BH4)2-diglyme0.5 on the atomic level are investigated by means of quasielastic neutron scattering supported by density functional theory calculations and IR and NMR spectroscopy.
Breakthrough - electron crystallography for everyone
Recent advances in electron crystallography published in Angewandte Chemie and highlighted by Science, Chemical & Engineering News and ScienceNews!Under the lead of LSK member, "Rapid structure determination of microcrystalline molecular compounds using electron diffraction", published in Angewandte Chemie International Edition https://onlinelibrary.wiley.com/doi/abs/10.1002/anie.201811318 has attracted great attention in the chemistry community.
Cuprate Trilogy
In a trio of recent papers, a research group from the University of Zürich has made a number of new discoveries about the nature of cuprates' electronic structure and orbital composition. The results have important implications for superconductivity and pseudogaps in cuprates, and even the existence of type-II Dirac fermions in oxides.
Multiple Coulomb phase in the fluoride pyrochlore CsNiCrF6
The Coulomb phase is an idealized state of matter whose properties are determined by factors beyond conventional consid- erations of symmetry, including global topology, conservation laws and emergent order. Theoretically, Coulomb phases occur in ice-type systems such as water ice and spin ice; in dimer models; and in certain spin liquids. However, apart from ice-type systems, more general experimental examples are very scarce.
Tagesschau: Neue Beweise zu Gletscher-Schmelze
The evening news on Swiss national television, SRF Tagesschau on Saturday evening 19h30, featured LUC's research on regional climate change with a story on the cause of glacier melting at the end of the Little Ice Age in Switzerland.
SwissFEL's First Call for Proposals
The first SwissFEL call for proposals took place, deadline for submission was the 15th of September. In this first call for proposals SwissFEL received overwhelming interest from the user community. A total of 47 proposals were submitted for the SwissFEL Alvra experimental station and 26 for the Bernina experimental station. The Proposal Review committee PRC took place on 18-19 October 2018.
Why the Little Ice Age ended in the middle of the 19th century
In the first half of the 19th century, a series of large volcanic eruptions in the tropics led to a temporary global cooling of Earth's climate. That Alpine glaciers grew and subsequently receded again during the final phase of the so-called Little Ice Age was due to a natural process. This has now been proven by PSI researchers on the basis of ice cores.
Successful PhD Defense
Jacinta Edebeli successfully defended her PhD with the title "Multiphase Chemical Reactivity in Cold Regions" at the ETHZ. Congratulations! The thesis was part of the MiSo project in co-operation with LUC's Analytical Chemistry research group and the WSL-SLF Davos. The project was jointly funded by Swiss National Science Foundation.
Discrete Hall contribution of magnetic skyrmions
The reliable electrical detection of magnetic skyrmions is of fundamental importance for the application of such topological magnetic quasi-particles for data storage devices. Researchers in a joint collaboration between the University of Leeds and the PolLux endstation have investigated the electrical detection of isolated magnetic skyrmions in applications-relevant nanostructured devices, observing the presence of a strong skyrmion-dependent contribution to the Hall resistivity.
30 years Paul Scherrer Institute PSI
Ceremony with invited guests from politics, business and sciencePSI held its 30 Years of PSI ceremony. The PSI showed guests what it has achieved over the past three decades, with results that could be of benefit to everyone in Switzerland.