MaMaSELF Status Meeting 2014

Session

Evening Sessions

21 May 2014, 20:45

Main Lecture Hall (Hotel Rigi Kulm)

Conveners

Evening Sessions: Keynote Lectures I

• Juerg Schefer (Paul Scherrer Institut)

Evening Sessions: Keynote Lectures II

• Wolfgang Schmahl (LMU)

Evening Sessions: Keynote Lectures III

• SoHyun PARK (Section Crystallography, Dept. Earth & Environmental Sciences, LMU Munich, Germany)

Evening Sessions: Keynote Lectures IV

• Karin Kleinstück (LMU/TUM)

Evening Sessions: Keynote Lectures V

• SoHyun PARK (Section Crystallography, Dept. Earth & Environmental Sciences, LMU Munich, Germany)

1. Probing the multiferroic properties of the geometric frustrated CuCrO2 compound using neutron large scale facilities at Paul Scherrer Institut, Oak Ridge and Los Alamos

Dr Matthias Frontzek (Paul Scherrer Institut, Laboratory for Neutron Scattering)

21/05/2014, 20:45

low-temperature properties in general, and the tunability of the magnetic structure through an electric field and the electric polarization through a magnetic field in particular. The most promising candidates for such controllable multiferroics have been found among the materials with inherent geometric magnetic frustration. Among these, the delafossite CuCrO2, which crystallizes in the...

22. An Introduction to Diamond Light Source and the material and magnetism beamline

Dr Alessandro Bombardi (DiamondLight Source)

22/05/2014, 17:00

In this presentation I will briefly presents the Diamond Light Source and the various research possibilities offered by the machine, then I will focus on the materials and magnetism beamline I16 illustrating the main features of the beamline. Finally I will present an example of research performed on I16 illustrating the kind of studies that we can perform.

36. New possibilities for in-situ diffraction techniques with synchrotron radiation

Dr Dmitry Chernyshov (Swiss Norwegian Beamline @ ESRF)

22/05/2014, 18:00

abstract missing

39. Neutron Imaging - Material research in real space

Dr Anders Kaestner (Paul Scherrer Institut, NIAG)

22/05/2014, 20:30

Neutron imaging is a method that directly provides real-space information about the sample composition using neutrons as probing beam. In the standard configuration the resulting images represent the neutron shadow cast by the, for neutrons, semi-transparent sample. The basic principle is very similar to the more known X-ray radiography. The difference lies in the neutron matter interaction...

37. Research in Industry

Dr Wolfgang Hater

23/05/2014, 16:30

Research & development in the industry generally is project based. More fundamental projects relevant for two or more Business Units are managned on corporate level (Central Research), whereas applied research being closer to the market is normally carried out within a single business unit. Each R&D Project has to be commercially justified, taking into account investment needed, important...

21. Materials Research and Applications at the High Flux Neutron Source FRMII

Dr Christoph Morkel (Tu München)

23/05/2014, 17:30

An overview will be presented over research activities at the High Flux Neutron Source FRMII in the fields of materials research, industrial and medical applications. In three topics, special emphasis is given to the unique design of the FRMII reactor, to the process of silicon doping on an industrial scale and thirdly to the production of technetium, a radiopharmaceutical for medical...

32. The Mn4Ca cluster in Photosynthesis - Where are the electrons?

Dr Pieter Glatzel (ESRF)

24/05/2014, 10:30

The oxygen-evolving complex (OEC) located in the PSII membrane-bound protein in plant, algae, and cyanobacteria catalyses the water-oxidation reaction. The OEC, with four Mn and one Ca, couples the 4-electron chemistry of water oxidation with the one-electron photochemistry of the reaction center by sequentially storing oxidizing equivalents through five intermediate S-states (Si, i = 0 to 4),...