People 27.08.2015 Candidate Quantum Spin Liquid in the Ce3+ Pyrochlore Stannate Ce2Sn2O7 We report the low-temperature magnetic properties of Ce2Sn2O7, a rare-earth pyrochlore. Our suscep- tibility and magnetization measurements show that due to the thermal isolation of a Kramers doublet ground state, Ce2Sn2O7 has Ising-like magnetic moments of ∼1.18 μB. The magnetic moments are confined to the local trigonal axes, as in a spin ice, but the exchange interactions are antiferromagnetic. 24.08.2015 Umbrella MoU Signed by 14 Parties The Memorandum of Understanding of the Umbrella Collaboration was signed by 14 parties: ALBA, DESY, Diamond Light Source Ltd, Elettra, EMBL Heidelberg, ESRF, European XFEL, HZB, ILL, Instruct Academic Services Ltd, KIT, PSI, STFC and SOLEIL. 21.08.2015 In Situ Serial Crystallography Workshop at the SLS The Macromolecular Crystallography group at SLS is organizing a three days workshop on in situ serial crystallography (http://indico.psi.ch/event/issx) between November 17 and 19, 2015. It will be dedicated in the presentation of a novel method facilitating the structure determination of membrane proteins, which are highly important pharmaceutical targets but are difficult to handle using 'classical' crystallographic tools. Designed for 20 Ph.D. students, postdocs and young scientists from both academia and industry, the workshop will consist of introductory lectures, followed by hands-on practicals on in meso or lipidic cubic phase (LCP) crystallization, on in situ serial crystallography data collection using a micro-sized beam and on data processing. 20.08.2015 New insight into receptor signalling A team of 72 investigators across 25 institutions including researchers from the Paul Scherrer Institut obtained the X-ray structure of a rhodopsinàarrestin complex, which represents a major milestone in the area of G-protein-coupled-receptor (GPCR), a protein family recognized in the award of the 2012 Nobel Prize in Chemistry. 17.08.2015 Terahertz laser light focused to the extreme There are limits to how short a flash of light can be – in both time and space. Researchers from the Paul Scherrer Institute (PSI) have now succeeded in reaching these physical limits and producing the smallest possible flash. To do so, they used terahertz light, which is physically related to visible light or radio waves, but differs in its wavelength. 17.08.2015 •Zukunftstechnologien •6 min Kleinstmöglicher Lichtblitz erzeugt Further information aboutMaterialforschung Am Paul Scherrer Institut ist es Forschenden gelungen, den kleinstmöglichen Blitz aus Terahertzlicht zu erzeugen. Damit eröffnet sich ein neuer Weg, um die Eigenschaften von Materialien zu untersuchen. 10.08.2015 •Grundlagen der Natur •8 min Neue Details der Reizübertragung in Lebewesen aufgedeckt Further information aboutBiologie Further information aboutMedizin Forschende decken neue Details darüber auf, wie die Zellen von Lebewesen Reize verarbeiten. Im Mittelpunkt stehen sogenannte G-Proteine, die helfen, Reize, die von aussen bei einer Zelle ankommen, ins Zellinnere weiterzuleiten. Die Studie zeigt erstmals, welcher Teil der G-Proteine für deren Funktion entscheidend ist . Von den Ergebnissen berichten Forschende des Paul Scherrer Instituts PSI, der ETH Zürich, des Pharmaunternehmens Roche und des britischen MRC Laboratory of Molecular Biology in der jüngsten Ausgabe des Fachmagazins Nature Structural and Molecular Biology. 07.08.2015 Element-Specific X-Ray Phase Tomography of 3D Structures at the Nanoscale Recent advances in fabrication techniques to create mesoscopic 3D structures have led to significant developments in a variety of fields including biology, photonics, and magnetism. Further progress in these areas benefits from their full quantitative and structural characterization. 07.08.2015 Nanoscale switch for vortex polarization mediated by Bloch core formation in magnetic hybrid systems Vortices are fundamental magnetic topological structures characterized by a curling magnetization around a highly stable nanometric core. 06.08.2015 •Zukunftstechnologien •8 min Magnete aus unmagnetischen Metallen Further information aboutMaterialforschung Further information aboutSμS Ein international zusammengesetztes Forschungsteam hat zum ersten Mal gezeigt, wie man von Natur aus unmagnetische Metalle wie etwa Kupfer magnetisch machen kann. Die Entdeckung könnte helfen, neuartige Magnete für unterschiedlichste technische Anwendungen zu entwickeln. Messungen, die für das Verständnis des Phänomens entscheidend waren, wurden am PSI durchgeführt. Nur hier lassen sich magnetische Vorgänge im Inneren von Materialien in dem nötigen Detail untersuchen. 05.08.2015 Beating the Stoner criterion using molecular interfaces Only three elements are ferromagnetic at room temperature: the transition metals iron, cobalt and nickel. The Stoner criterion explains why iron is ferromagnetic but manganese, for example, is not, even though both elements have an unfilled 3d shell and are adjacent in the periodic table: according to this criterion, the product of the density of states and the exchange integral must be greater than unity for spontaneous spin ordering to emerge. 30.07.2015 •Energie und Klima •8 min Radioaktive Abfälle in der Zementfalle Further information aboutUmwelt Further information aboutKernkraft Schwach- und mittelaktive nukleare Abfälle bleiben in einem geologischen Tiefenlager über mehrere Tausend Jahre in Zementmaterialien verpackt. Forschende des Paul Scherrer Instituts und des Karlsruher Instituts für Technologie haben nun gezeigt, wie Zement die Bewegungsfreiheit der radioaktiven Substanzen einschränkt. Das verbessert das Verständnis der Prozesse, die in dieser ersten Phase der Tiefenlagerung ablaufen werden. 30.07.2015 Evidence for Coexistence of Bulk Superconductivity and Itinerant Antiferromagnetism in the Heavy Fermion System CeCo(In1−xCdx)5 In the generic phase diagram of heavy fermion systems, tuning an external parameter such as hydrostatic or chemical pressure modifies the superconducting transition temperature. The superconducting phase forms a dome in the temperature-tuning parameter phase diagram, which is associated with a maximum of the superconducting pairing interaction. Proximity to antiferromagnetism suggests a relation between the disappearance of antiferromagnetic order and superconductivity. 21.07.2015 •Health Innovation •9 min Protonen gegen Tumore Further information aboutMedizin Further information aboutProtonentherapie Interview mit Damien Charles WeberDamien Charles Weber ist seit 2013 Leiter und Chefarzt des Zentrums für Protonentherapie, dem einzigen Zentrum dieser Art in der Schweiz. In diesem Interview spricht er über die Erfolge der Protonentherapie bei der Krebsbehandlung und die Ziele, die für die nächsten Jahre in diesem Bereich anvisiert sind. 13.07.2015 A new class of chiral materials hosting magnetic skyrmions beyond room temperature Magnetic skyrmions are tiny, magnetic-spin vortices that can emerge in magnetic materials. Due to their nanometric size, skyrmions could be used to build extremely high density memory spintronics devices. However, stable skyrmions are not easy to find and control, and are usually only observed well below room temperature. 10.07.2015 High-Precision Vertical Linear Translation for Offset Mirrors The horizontal and vertical offset mirrors are key optical elements for the SwissFEL ARAMIS Beamline. The offset mirrors for example, are used to deflect and steer the x-ray beam into one of the end stations. As the sample position is about 60m from the mirror, very high demands are put on the mirror positioning system in order to deflect the x-ray beam on to the sample with a micro-meter precision. Therefore precise positioning of the mirrors is required, with specifications to move a load of up to 200kg by steps as small as 0.3µm. Not just the positioning must be precise, but also the stability for short term vibrations and long term drifts must be superior. 09.07.2015 Correlating the Core-Shell Composition and the Surface Structure to the Magnetic Properties for Magnetite-Maghemite Nanoparticles in the 5-15 nm Range Very small superparamagnetic iron oxide nanoparticles were characterized by innovative synchrotron X-ray total scattering methods and Debye function analysis, developed at the X04SA Materials Science beamline of SLS. 02.07.2015 A new class of chiral materials hosting magnetic skyrmions beyond room temperature Skyrmions, topologically protected vortex-like nanometric spin textures in magnets, have been attracting increasing attention for emergent electromagnetic responses and possible technological applications for spintronics. In particular, metallic magnets with chiral and cubic/tetragonal crystal structure may have high potential to host skyrmions that can be driven by low electrical current excitation. 02.07.2015 •Zukunftstechnologien •6 min Sieben Nanometer für die Elektronik der Zukunft Further information aboutNanotechnologie Further information aboutMaterialforschung Further information aboutSLS Forschenden des Paul Scherrer Instituts ist es gelungen, in einem Halbleitermaterial regelmässige Muster zu erzeugen, die 16 Mal kleiner sind als diejenigen heutiger Computer-Chips. Damit haben sie einen wichtigen Schritt zu noch kleineren Computerbauteilen gemacht. Strukturen dieser Grösse sieht die Industrie als Standard für das Jahr 2028 vor. 01.07.2015 Superior Bifunctional Electrocatalytic Activity of Ba0.5Sr0.5Co0.8Fe0.2O3-δ/ Carbon Composite Electrodes: Insight into the Local Electronic Structure Using XAS it was demonstrated that carbon acts as an activity booster for Ba0.5Sr0.5Co0.8Fe0.2O3 oxygen reduction and evolution electrocatalyst promoting change of cobalt oxidation state. 29.06.2015 •Energie und Klima •6 min Feinstaub aus modernen Benzinmotoren schadet unserer Lunge Further information aboutUmwelt Studien belegen seit Jahren, dass Feinstaub aus Benzinmotoren zu Gesundheitsschäden führt. Auch moderne Motorentechnologie bietet da keine Abhilfe, wie Forschende der Universität Bern und des Paul Scherrer Instituts PSI zeigen. 26.06.2015 Interplay between magnetic order at Mn and Tm sites alongside the structural distortion in multiferroic films of o-TmMnO3 We employ resonant soft x-ray diffraction to individually study the magnetic ordering of the Mn and the Tm sublattices in single-crystalline films of orthorhombic (o−)TmMnO3. The same magnetic ordering wave vector of (0q0) with q≈0.46 is found for both ionic species, suggesting that the familiar antiferromagnetic order of the Mn ions induces a magnetic order on the Tm unpaired 4f electrons. 23.06.2015 Crystallization of zirconia based thin films In pulsed laser deposition the use of a rectangular or elliptical beam spot with a non 1:1 aspect ratio leads to the so called flip-over effect. Here, the longest dimension of the laser spot results in the shortest direction of plasma plume expansion. 18.06.2015 Concept of a multichannel spin-resolving electron analyzer based on Mott scattering The spin of electron plays a crucial role in many physical phenomena, ranging from the obvious example of magnetism, via novel materials for spintronics applications, to high-temperature superconductivity. Spin- and angle-resolved photoelectron spectroscopy (SARPES) gives the most direct access to the spin aspects of the electronic structure, but the one-channel detection principle of all presently available SARPES spectrometers severely limits their efficiency. A team of Swiss and Russian scientists has developed a revolutionary concept of a multichannel electron spin detector based on Mott scattering as the spin selective process and imaging-type electron optics. 18.06.2015 Fermi Surface of Three-Dimensional La1−xSrxMnO3 Explored by Soft-X-Ray ARPES: Rhombohedral Lattice Distortion and its Effect on Magnetoresistance A research team led by scientists from the Swiss Light Source has for the first time established three-dimensional (3D) electronic structure of the perovskite compound La1−xSrxMnO3 connected with its colossal magnetoresistance. Instrumental for this study has been the use of the new experimental technique of soft-x-ray ARPES, available at the ADRESS beamline, with its intrinsically sharp definition of 3D electron momentum. 18.06.2015 Reduction of Mn19 Coordination Clusters on a Gold Surface The surface-induced changes of the oxidation state and magnetic properties of Mn ion clusters have been probed by X-ray absorption spectroscopy and X-ray magnetic circular dichroism. 17.06.2015 Mutual Independence of Critical Temperature and Superfluid Density under Pressure in Optimally Electron-Doped Superconducting LaFeAsO1−xFx The superconducting properties of LaFeAsO1−xFx under conditions of optimal electron doping are investigated upon the application of external pressure up to ∼23 kbar. Measurements of muon-spin spectroscopy and dc magnetometry evidence a clear mutual independence between the critical temperature Tc and the low-temperature saturation value for the ratio ns/m* (superfluid density over effective band mass of Cooper pairs). 12.06.2015 Spin-stripe phase in a frustrated zigzag spin-1/2 chain In strongly correlated electron systems periodic modulations on the nano-scale have typically been associated with competition between short- and long-range interactions, for example, between exchange and dipole-dipole interactions in the case of ferromagnetic thin films. Here we show that spin-stripe textures may develop also in antiferromagnets, where long-range dipole-dipole magnetic interactions are absent. 11.06.2015 Spin-stripe phase in a frustrated zigzag spin-1/2 chain Motifs of periodic modulations are encountered in a variety of natural systems, where at least two rival states are present. In strongly correlated electron systems, such behaviour has typically been associated with competition between short- and long-range interactions, for example, between exchange and dipole-dipole interactions in the case of ferromagnetic thin films. 10.06.2015 Controllable Broadband Absorption in the Mixed Phase of Metamagnets Combination of neutron scattering, muon spin relaxation, specific heat, ac and dc magnetization measurements, and electron magnetic resonance, reveals the ability of metamagnetic materials to absorb the electromagnetic radiation in an extremely broad frequency range. Erste Seite « First Vorherige Seite ‹‹ … 75 76 77 78 79 80 81 82 83 … Nächste Seite ›› Letzte Seite Last » Themenübersicht
27.08.2015 Candidate Quantum Spin Liquid in the Ce3+ Pyrochlore Stannate Ce2Sn2O7 We report the low-temperature magnetic properties of Ce2Sn2O7, a rare-earth pyrochlore. Our suscep- tibility and magnetization measurements show that due to the thermal isolation of a Kramers doublet ground state, Ce2Sn2O7 has Ising-like magnetic moments of ∼1.18 μB. The magnetic moments are confined to the local trigonal axes, as in a spin ice, but the exchange interactions are antiferromagnetic.
24.08.2015 Umbrella MoU Signed by 14 Parties The Memorandum of Understanding of the Umbrella Collaboration was signed by 14 parties: ALBA, DESY, Diamond Light Source Ltd, Elettra, EMBL Heidelberg, ESRF, European XFEL, HZB, ILL, Instruct Academic Services Ltd, KIT, PSI, STFC and SOLEIL.
21.08.2015 In Situ Serial Crystallography Workshop at the SLS The Macromolecular Crystallography group at SLS is organizing a three days workshop on in situ serial crystallography (http://indico.psi.ch/event/issx) between November 17 and 19, 2015. It will be dedicated in the presentation of a novel method facilitating the structure determination of membrane proteins, which are highly important pharmaceutical targets but are difficult to handle using 'classical' crystallographic tools. Designed for 20 Ph.D. students, postdocs and young scientists from both academia and industry, the workshop will consist of introductory lectures, followed by hands-on practicals on in meso or lipidic cubic phase (LCP) crystallization, on in situ serial crystallography data collection using a micro-sized beam and on data processing.
20.08.2015 New insight into receptor signalling A team of 72 investigators across 25 institutions including researchers from the Paul Scherrer Institut obtained the X-ray structure of a rhodopsinàarrestin complex, which represents a major milestone in the area of G-protein-coupled-receptor (GPCR), a protein family recognized in the award of the 2012 Nobel Prize in Chemistry.
17.08.2015 Terahertz laser light focused to the extreme There are limits to how short a flash of light can be – in both time and space. Researchers from the Paul Scherrer Institute (PSI) have now succeeded in reaching these physical limits and producing the smallest possible flash. To do so, they used terahertz light, which is physically related to visible light or radio waves, but differs in its wavelength.
17.08.2015 •Zukunftstechnologien •6 min Kleinstmöglicher Lichtblitz erzeugt Further information aboutMaterialforschung Am Paul Scherrer Institut ist es Forschenden gelungen, den kleinstmöglichen Blitz aus Terahertzlicht zu erzeugen. Damit eröffnet sich ein neuer Weg, um die Eigenschaften von Materialien zu untersuchen.
10.08.2015 •Grundlagen der Natur •8 min Neue Details der Reizübertragung in Lebewesen aufgedeckt Further information aboutBiologie Further information aboutMedizin Forschende decken neue Details darüber auf, wie die Zellen von Lebewesen Reize verarbeiten. Im Mittelpunkt stehen sogenannte G-Proteine, die helfen, Reize, die von aussen bei einer Zelle ankommen, ins Zellinnere weiterzuleiten. Die Studie zeigt erstmals, welcher Teil der G-Proteine für deren Funktion entscheidend ist . Von den Ergebnissen berichten Forschende des Paul Scherrer Instituts PSI, der ETH Zürich, des Pharmaunternehmens Roche und des britischen MRC Laboratory of Molecular Biology in der jüngsten Ausgabe des Fachmagazins Nature Structural and Molecular Biology.
07.08.2015 Element-Specific X-Ray Phase Tomography of 3D Structures at the Nanoscale Recent advances in fabrication techniques to create mesoscopic 3D structures have led to significant developments in a variety of fields including biology, photonics, and magnetism. Further progress in these areas benefits from their full quantitative and structural characterization.
07.08.2015 Nanoscale switch for vortex polarization mediated by Bloch core formation in magnetic hybrid systems Vortices are fundamental magnetic topological structures characterized by a curling magnetization around a highly stable nanometric core.
06.08.2015 •Zukunftstechnologien •8 min Magnete aus unmagnetischen Metallen Further information aboutMaterialforschung Further information aboutSμS Ein international zusammengesetztes Forschungsteam hat zum ersten Mal gezeigt, wie man von Natur aus unmagnetische Metalle wie etwa Kupfer magnetisch machen kann. Die Entdeckung könnte helfen, neuartige Magnete für unterschiedlichste technische Anwendungen zu entwickeln. Messungen, die für das Verständnis des Phänomens entscheidend waren, wurden am PSI durchgeführt. Nur hier lassen sich magnetische Vorgänge im Inneren von Materialien in dem nötigen Detail untersuchen.
05.08.2015 Beating the Stoner criterion using molecular interfaces Only three elements are ferromagnetic at room temperature: the transition metals iron, cobalt and nickel. The Stoner criterion explains why iron is ferromagnetic but manganese, for example, is not, even though both elements have an unfilled 3d shell and are adjacent in the periodic table: according to this criterion, the product of the density of states and the exchange integral must be greater than unity for spontaneous spin ordering to emerge.
30.07.2015 •Energie und Klima •8 min Radioaktive Abfälle in der Zementfalle Further information aboutUmwelt Further information aboutKernkraft Schwach- und mittelaktive nukleare Abfälle bleiben in einem geologischen Tiefenlager über mehrere Tausend Jahre in Zementmaterialien verpackt. Forschende des Paul Scherrer Instituts und des Karlsruher Instituts für Technologie haben nun gezeigt, wie Zement die Bewegungsfreiheit der radioaktiven Substanzen einschränkt. Das verbessert das Verständnis der Prozesse, die in dieser ersten Phase der Tiefenlagerung ablaufen werden.
30.07.2015 Evidence for Coexistence of Bulk Superconductivity and Itinerant Antiferromagnetism in the Heavy Fermion System CeCo(In1−xCdx)5 In the generic phase diagram of heavy fermion systems, tuning an external parameter such as hydrostatic or chemical pressure modifies the superconducting transition temperature. The superconducting phase forms a dome in the temperature-tuning parameter phase diagram, which is associated with a maximum of the superconducting pairing interaction. Proximity to antiferromagnetism suggests a relation between the disappearance of antiferromagnetic order and superconductivity.
21.07.2015 •Health Innovation •9 min Protonen gegen Tumore Further information aboutMedizin Further information aboutProtonentherapie Interview mit Damien Charles WeberDamien Charles Weber ist seit 2013 Leiter und Chefarzt des Zentrums für Protonentherapie, dem einzigen Zentrum dieser Art in der Schweiz. In diesem Interview spricht er über die Erfolge der Protonentherapie bei der Krebsbehandlung und die Ziele, die für die nächsten Jahre in diesem Bereich anvisiert sind.
13.07.2015 A new class of chiral materials hosting magnetic skyrmions beyond room temperature Magnetic skyrmions are tiny, magnetic-spin vortices that can emerge in magnetic materials. Due to their nanometric size, skyrmions could be used to build extremely high density memory spintronics devices. However, stable skyrmions are not easy to find and control, and are usually only observed well below room temperature.
10.07.2015 High-Precision Vertical Linear Translation for Offset Mirrors The horizontal and vertical offset mirrors are key optical elements for the SwissFEL ARAMIS Beamline. The offset mirrors for example, are used to deflect and steer the x-ray beam into one of the end stations. As the sample position is about 60m from the mirror, very high demands are put on the mirror positioning system in order to deflect the x-ray beam on to the sample with a micro-meter precision. Therefore precise positioning of the mirrors is required, with specifications to move a load of up to 200kg by steps as small as 0.3µm. Not just the positioning must be precise, but also the stability for short term vibrations and long term drifts must be superior.
09.07.2015 Correlating the Core-Shell Composition and the Surface Structure to the Magnetic Properties for Magnetite-Maghemite Nanoparticles in the 5-15 nm Range Very small superparamagnetic iron oxide nanoparticles were characterized by innovative synchrotron X-ray total scattering methods and Debye function analysis, developed at the X04SA Materials Science beamline of SLS.
02.07.2015 A new class of chiral materials hosting magnetic skyrmions beyond room temperature Skyrmions, topologically protected vortex-like nanometric spin textures in magnets, have been attracting increasing attention for emergent electromagnetic responses and possible technological applications for spintronics. In particular, metallic magnets with chiral and cubic/tetragonal crystal structure may have high potential to host skyrmions that can be driven by low electrical current excitation.
02.07.2015 •Zukunftstechnologien •6 min Sieben Nanometer für die Elektronik der Zukunft Further information aboutNanotechnologie Further information aboutMaterialforschung Further information aboutSLS Forschenden des Paul Scherrer Instituts ist es gelungen, in einem Halbleitermaterial regelmässige Muster zu erzeugen, die 16 Mal kleiner sind als diejenigen heutiger Computer-Chips. Damit haben sie einen wichtigen Schritt zu noch kleineren Computerbauteilen gemacht. Strukturen dieser Grösse sieht die Industrie als Standard für das Jahr 2028 vor.
01.07.2015 Superior Bifunctional Electrocatalytic Activity of Ba0.5Sr0.5Co0.8Fe0.2O3-δ/ Carbon Composite Electrodes: Insight into the Local Electronic Structure Using XAS it was demonstrated that carbon acts as an activity booster for Ba0.5Sr0.5Co0.8Fe0.2O3 oxygen reduction and evolution electrocatalyst promoting change of cobalt oxidation state.
29.06.2015 •Energie und Klima •6 min Feinstaub aus modernen Benzinmotoren schadet unserer Lunge Further information aboutUmwelt Studien belegen seit Jahren, dass Feinstaub aus Benzinmotoren zu Gesundheitsschäden führt. Auch moderne Motorentechnologie bietet da keine Abhilfe, wie Forschende der Universität Bern und des Paul Scherrer Instituts PSI zeigen.
26.06.2015 Interplay between magnetic order at Mn and Tm sites alongside the structural distortion in multiferroic films of o-TmMnO3 We employ resonant soft x-ray diffraction to individually study the magnetic ordering of the Mn and the Tm sublattices in single-crystalline films of orthorhombic (o−)TmMnO3. The same magnetic ordering wave vector of (0q0) with q≈0.46 is found for both ionic species, suggesting that the familiar antiferromagnetic order of the Mn ions induces a magnetic order on the Tm unpaired 4f electrons.
23.06.2015 Crystallization of zirconia based thin films In pulsed laser deposition the use of a rectangular or elliptical beam spot with a non 1:1 aspect ratio leads to the so called flip-over effect. Here, the longest dimension of the laser spot results in the shortest direction of plasma plume expansion.
18.06.2015 Concept of a multichannel spin-resolving electron analyzer based on Mott scattering The spin of electron plays a crucial role in many physical phenomena, ranging from the obvious example of magnetism, via novel materials for spintronics applications, to high-temperature superconductivity. Spin- and angle-resolved photoelectron spectroscopy (SARPES) gives the most direct access to the spin aspects of the electronic structure, but the one-channel detection principle of all presently available SARPES spectrometers severely limits their efficiency. A team of Swiss and Russian scientists has developed a revolutionary concept of a multichannel electron spin detector based on Mott scattering as the spin selective process and imaging-type electron optics.
18.06.2015 Fermi Surface of Three-Dimensional La1−xSrxMnO3 Explored by Soft-X-Ray ARPES: Rhombohedral Lattice Distortion and its Effect on Magnetoresistance A research team led by scientists from the Swiss Light Source has for the first time established three-dimensional (3D) electronic structure of the perovskite compound La1−xSrxMnO3 connected with its colossal magnetoresistance. Instrumental for this study has been the use of the new experimental technique of soft-x-ray ARPES, available at the ADRESS beamline, with its intrinsically sharp definition of 3D electron momentum.
18.06.2015 Reduction of Mn19 Coordination Clusters on a Gold Surface The surface-induced changes of the oxidation state and magnetic properties of Mn ion clusters have been probed by X-ray absorption spectroscopy and X-ray magnetic circular dichroism.
17.06.2015 Mutual Independence of Critical Temperature and Superfluid Density under Pressure in Optimally Electron-Doped Superconducting LaFeAsO1−xFx The superconducting properties of LaFeAsO1−xFx under conditions of optimal electron doping are investigated upon the application of external pressure up to ∼23 kbar. Measurements of muon-spin spectroscopy and dc magnetometry evidence a clear mutual independence between the critical temperature Tc and the low-temperature saturation value for the ratio ns/m* (superfluid density over effective band mass of Cooper pairs).
12.06.2015 Spin-stripe phase in a frustrated zigzag spin-1/2 chain In strongly correlated electron systems periodic modulations on the nano-scale have typically been associated with competition between short- and long-range interactions, for example, between exchange and dipole-dipole interactions in the case of ferromagnetic thin films. Here we show that spin-stripe textures may develop also in antiferromagnets, where long-range dipole-dipole magnetic interactions are absent.
11.06.2015 Spin-stripe phase in a frustrated zigzag spin-1/2 chain Motifs of periodic modulations are encountered in a variety of natural systems, where at least two rival states are present. In strongly correlated electron systems, such behaviour has typically been associated with competition between short- and long-range interactions, for example, between exchange and dipole-dipole interactions in the case of ferromagnetic thin films.
10.06.2015 Controllable Broadband Absorption in the Mixed Phase of Metamagnets Combination of neutron scattering, muon spin relaxation, specific heat, ac and dc magnetization measurements, and electron magnetic resonance, reveals the ability of metamagnetic materials to absorb the electromagnetic radiation in an extremely broad frequency range.