A l’Institut Paul Scherrer, les scientifiques cherchent des réponses à la question essentielle des structures élémentaires de la matière et des principes fondamentaux de fonctionnement dans la nature. Ils étudient la structure et les propriétés des particules élémentaires – les plus petits composants de la matière – ou se penchent sur la question de savoir comment les molécules biologiques sont structurées et remplissent leur fonction. Les connaissances qu’ils acquièrent de la sorte ouvrent de nouvelles pistes de solution en sciences, en médecine ou dans le domaine des technologies.
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Operando Characterization of a LiS Battery
One of the technological barriers to electrification of transport is the insufficient storage capacity of the Li-ion batteries on which the current electric cars are based. The lithium-sulfur (Li-S) battery is an advanced technology whose successful commercialization can lead to significant gains in the storage capacity of batteries and promote wide-spread adoption of electric vehicles.
Multiresolution X-ray tomography, getting a clear view of the interior
Researchers at PSI have developed a technique that combines tomography measurements at different resolution levels to allow quantitative interpretation for nanoscale tomography on an interior region of interest of the sample. In collaboration with researchers of the institute AMOLF in the Netherlands and ETH Zurich in Switzerland they showcase their technique by studying the porous structure within a section of an avian eggshell. The detailed measurements of the interior of the sample allowed the researchers to quantify the ordering and distribution of an intricate network of pores within the shell.
Fractionner une impulsion de rayons X pour visualiser des processus ultra rapides
Le laser à rayons X SwissFEL du PSI permettra de visualiser les différentes étapes de processus très rapides. Un nouveau procédé devrait rendre possibles des expériences encore plus précises : il consiste à fractionner chaque impulsion de rayons X, et à faire en sorte que chaque fraction de l’impulsion atteigne l’une après l’autre l’objet étudié. Le principe de ce processus rappelle celui de l’ancienne chronophotographie.
Mass Density and Water Content of Saturated Never-Dried Calcium Silicate Hydrates
Calcium silicate hydrates (C-S-H) are the most abundant hydration products in ordinary Portland cement paste. Yet, despite the critical role they play in determining mechanical and transport properties, there is still a debate about their density and exact composition. Here, the site-specific mass density and composition of C-S-H in hydrated cement paste are determined with nanoscale resolution in a nondestructive approach.
La 3D, au nanomètre près
Des chercheurs de l'Institut Paul Scherrer et de l'ETH Zurich ont créé des images en 3D de minuscules objets, et ont même réussi à visualiser au niveau de ces derniers des détails de 25 nanomètres (1 nanomètre = 1 million de millimètre). En plus de déterminer la forme de leurs objets d'étude, ils ont pu également mettre en évidence la façon dont un élément chimique donné (le cobalt) était réparti au sein de ces derniers, tout en étant capables d'établir si ce même élément était présent sous forme de liaison chimique ou sous forme pure.
Magnetic inhomogeneity on a triangular lattice: the magnetic-exchange versus the elastic energy and the role of disorder
Inhomogeneity in the ground state is an intriguing, emergent phenomenon in magnetism. Recently, it has been observed in the magnetostructural channel of the geometrically frustrated α-NaMnO2, for the first time in the absence of active charge degrees of freedom. Here we report an in-depth numerical and local-probe experimental study of the isostructural sister compound CuMnO2 that emphasizes and provides an explanation for the crucial differences between the two systems.
Table-top soft x-ray lasers based on high-order harmonic generation (HHG)
Table-top soft x-ray lasers based on high-order harmonic generation (HHG) deliver routinely linearly polarized light. Many advanced applications including magnetic imaging would profit from a HHG source delivering in addition circular polarized light. In one of our recent work we present now an approach which provides intense soft x-ray radiation of high ellipticity. This source has given us the opportunity to realize the first magnetic dichroism experiment on a nickel sample at 18 nm (67 eV) with a table-top HHG source.
PSI-Feriencamp 2015
Suchen Sie für Ihr Kind ein spannendes Angebot während den Sommerferien? Möchten Sie in ihm die Neugier und Begeisterung für naturwissenschaftlich-technische Themen wecken? Die Berufsbildung und das Komitee für Chancengleichheit führt dieses Jahr zum achten Mal das PSI-Feriencamp durch!
Successful start of the series production of the C-band accelerating structures for SwissFEL
A total of 104 C-band accelerating structures will be needed for SwissFEL. Each of these structures is about 2 m long and consists out of 113 copper cells that are manufactured with micrometer precision using ultra-precision diamond machining, which results in mirror-like surfaces. The main components are the couplers at the input and the output of the structure, and the copper disks. For both, couplers and disks, the series production was successfully launched at the end of 2014. Since then the Dutch company VDL and TEL Mechatronics in Trübbach, Switzerland, delivered already many sets of couplers and accelerating disks, respectively.
Pb pollution from leaded gasoline in South America in the context of a 2000-year metallurgical history
Exploitation of the extensive polymetallic deposits of the Andean Altiplano in South America since precolonial times has caused substantial emissions of neurotoxic lead (Pb) into the atmosphere; however, its historical significance compared to recent Pb pollution from leaded gasoline is not yet resolved. We present a comprehensive Pb emission history for the last two millennia for South America, based on a continuous, high-resolution, ice core record from Illimani glacier. Illimani is the highest mountain of the eastern Bolivian Andes and is located at the northeastern margin of the Andean Altiplano.
Interfacial dominated ferromagnetism in nanograined ZnO: a μSR and DFT study
Diamagnetic oxides can, under certain conditions, become ferromagnetic at room temperature and therefore are promising candidates for future material in spintronic devices. Contrary to early predictions, doping ZnO with uniformly distributed magnetic ions is not essential to obtain ferromagnetic samples. Instead, the nanostructure seems to play the key role, as room temperature ferromagnetism was also found in nanograined, undoped ZnO.
L'essence fait pire que les activités minières
Jusqu'à son interdiction, l'essence au plomb dominait les émissions anthropiques de plomb en Amérique du SudL'essence au plomb représentait en Amérique du Sud une source plus importante que les activités minières en termes d'émissions de ce métal lourd et toxique, et ce alors que l'histoire de cette région du globe est caractérisée par d'importantes quantités de plomb dégagées depuis des millénaires par l'extraction minière des métaux. Des chercheurs du PSI et de l'Université de Berne apportent aujourd'hui la preuve du rôle dominant de l'essence, en se basant sur des mesures effectuées sur une carotte de glace issue d'un glacier bolivien. Il ressort qu'à partir des années 1960, le plomb issu du trafic routier dans les pays voisins a pollué deux fois plus l'atmosphère que les activités minières régionales. L'étude paraîtra le 6 mars 2015 dans la revue spécialisée « Science Advances ».
Non-Fermi Liquid Behavior Close to a Quantum Critical Point in a Ferromagnetic State without Local Moments
A quantum critical point (QCP) occurs upon chemical doping of the weak itinerant ferromagnet Sc3.1In. Remarkable for a system with no local moments, the QCP is accompanied by non-Fermi liquid behavior, manifested in the logarithmic divergence of the specific heat both in the ferro-and the paramagnetic states, as well as linear temperature dependence of the low-temperature resistivity.
Surface Aligned Magnetic Moments and Hysteresis of an Endohedral Single-Molecule Magnet on a Metal
The interaction between the endohedral unit in the single-molecule magnet Dy2ScN@C80 and a rhodium (111) substrate leads to alignment of the Dy 4f orbitals. The resulting orientation of the Dy2ScN plane parallel to the surface is inferred from comparison of the angular anisotropy of x-ray absorption spectra and multiplet calculations in the corresponding ligand field.
Prospective studies for SwissFEL experiments done at the SLS FEMTO station
For many years, PSI researchers have been testing experimental methods that will provide insights into novel materials for electronic devices. Using a special trick to make the Swiss Light Source (SLS) at PSI generate light with similar properties to that of PSI's x-ray laser SwissFEL, the researchers were able to demonstrate that the experiments planned for SwissFEL are possible and they are now building an experimental station at SwissFEL. read the full story)
Prêts pour le SwissFEL
Depuis des années, des chercheurs du PSI testent des méthodes d'expérimentation, qui permettront au laser à rayons X SwissFEL d'inspecter des matériaux novateurs, destinés aux appareils électroniques. Grâce à une astuce bien particulière, ils arrivent à produire à la Source de Lumière Suisse (SLS) du PSI une lumière aux propriétés analogues à celles du SwissFEL. Les scientifiques ont ainsi réussi à montrer que, fondamentalement, les expériences prévues étaient possibles. Ils ont aussi proposé la construction au SwissFEL d'une station de mesure à cet effet.
Muonium in Stishovite: Implications for the Possible Existence of Neutral Atomic Hydrogen in the Earth's Deep Mantle
Hydrogen in the Earth's deep interior has been thought to exist as a hydroxyl group in high-pressure minerals. We present Muon Spin Rotation experiments on SiO2 stishovite, which is an archetypal high-pressure mineral. Positive muon (which can be considered as a light isotope of proton) implanted in stishovite was found to capture electron to form muonium (corresponding to neutral hydrogen).
Magnetic inhomogeneity on a triangular lattice: the magnetic-exchange versus the elastic energy and the role of disorder
Inhomogeneity in the ground state is an intriguing, emergent phenomenon in magnetism. Recently, it has been observed in the magnetostructural channel of the geometrically frustrated α-NaMnO2, for the first time in the absence of active charge degrees of freedom. Here we report an in-depth numerical and local-probe experimental study of the isostructural sister compound CuMnO2 that emphasizes and provides an explanation for the crucial differences between the two systems.
Recherche pour le virage énergétique : l’expertise du PSI vient en renfort
Des chercheurs de l’Institut Paul Scherrer participent à plusieurs projets du nouveau Programme national de recherche « Virage énergétique » (PNR 70) du Fonds national suisse (FNS). Dans ce cadre, les spécialistes du PSI se penchent sur des questions comme les émissions de poussière fines des chauffages à bois, l’évaluation globale de technologies énergétiques et la fabrication de composants semi-conducteurs pour un nouveau type de transformateurs.
Ultrafast structural dynamics of the Fe-pnictide parent compound BaFe2As2
Understanding the interplay of the various degrees of freedom such as the electrons, spins and lattice is essential for many complex materials, including the high-temperature superconductors.
Pressure dependence of the magnetic order in CrAs
L. Keller et al., Phys. Rev. B 91, 020409(R) (2015). The suppression of magnetic order with pressure concomitant with the appearance of pressure-induced superconductivity was recently discovered in CrAs. Here we present a neutron diffraction study of the pressure evolution of the helimagnetic ground state towards and in the vicinity of the superconducting phase. Neutron diffraction on polycrystalline CrAs was employed from zero pressure to 0.65 GPa and at various temperatures.
Pressure dependence of the magnetic order in CrAs
The suppression of magnetic order with pressure concomitant with the appearance of pressure-induced superconductivity was recently discovered in CrAs. Here we present a neutron diffraction study of the pressure evolution of the helimagnetic ground state towards and in the vicinity of the superconducting phase. Neutron diffraction on polycrystalline CrAs was employed from zero pressure to 0.65 GPa and at various temperatures.
The phase diagram of electron-doped La2-xCexCuO4-δ
Superconductivity is a striking example of a quantum phenomenon in which electrons move coherently over macroscopic distances without scattering. The high-temperature superconducting oxides (cuprates) are the most studied class of superconductors, composed of two-dimensional CuO2 planes separated by other layers that control the electron concentration in the planes. A key unresolved issue in cuprates is the relationship between superconductivity and magnetism.
Un nouveau laser pour puces informatiques
A l'avenir, la communication au sein des puces informatiques et entre les différents composants des ordinateurs devrait pouvoir être accélérée grâce à de minuscules lasers intégrables dans les puces de silicium. Les experts ont longtemps cherché un matériau adéquat pour ces lasers, qui soit compatible avec le processus de fabrication des puces de silicium. Des chercheurs du Forschungszentrum Jülich et de l'Institut Paul Scherrer avec des Collègues du ETH Zurich ont à présent réalisé un progrès important.
Quantitatively Probing the Al Distribution in Zeolites
The degree of substitution of Si4+ by Al3+ in the oxygen-terminated tetrahedra (Al T-sites) of zeolites determines the concentration of ion-exchange and Brønsted acid sites. Because the location of the tetrahedra and the associated subtle variations in bond angles influence the acid strength, quantitative information about Al T-sites in the framework is critical to rationalize catalytic properties and to design new catalysts.
Quantitatively Probing the Al Distribution in Zeolites
The degree of substitution of Si4+ by Al3+ in the oxygen-terminated tetrahedra (Al T-sites) of zeolites determines the concentration of ion-exchange and Brønsted acid sites. Because the location of the tetrahedra and the associated subtle variations in bond angles influence the acid strength, quantitative information about Al T-sites in the framework is critical to rationalize catalytic properties and to design new catalysts.
Terahertz wavefront control for extremely bright THz bullet
The brightness of a light source defines its applicability to nonlinear phenomena in science. The SwissFEL laser group has now overcome one of the two principal technological hurdles to produce bright pulses in the Terahertz range (0.1-5 THz).
Competing superconducting and magnetic order parameters and field-induced magnetism in electron-doped Ba(Fe1-xCox)2As2
We have studied the magnetic and superconducting properties of Ba(Fe0.95Co0.05)2As2 as a function of temperature and external magnetic field using neutron scattering and muon spin rotation. Below the superconducting transition temperature the magnetic and superconducting order parameters coexist and compete. A magnetic field can significantly enhance the magnetic scattering in the superconducting state, roughly doubling the Bragg intensity at 13.5T.
Batman montre la voie vers un stockage de données plus compact
Des chercheurs de l'Institut Paul Scherrer (PSI) ont réussi à renverser l'aimantation de minuscules structures magnétiques grâce à la lumière d'un laser, et à suivre le déroulement de ce retournement au cours du temps. Une zone de quelques nanomètres a alors brièvement clignoté. Fait insolite : sa forme rappelait le logo en forme de chauve-souris de Batman. Les résultats de cette recherche pourraient rendre le stockage de données sur les disques durs plus compact, plus rapide et plus économique.
Nanoscale sub-100 picosecond all-optical magnetization switching in GdFeCo microstructure
Ultrafast magnetization reversal driven by femtosecond laser pulses has been shown to be a promising way to write information. Seeking to improve the recording density has raised intriguing fundamental questions about the feasibility of combining ultrafast temporal resolution with sub-wavelength spatial resolution for magnetic recording. Here we report on the experimental demonstration of nanoscale sub-100 ps all-optical magnetization switching, providing a path to sub-wavelength magnetic recording.