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FASEM - Joint French-Swedish school on X-rays and Neutrons techniques for the study of functional materials for energy

13–17 May 2019
LINXS
Europe/Stockholm timezone

Sandrine Testaz

Contribution List

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  1. 1. Interaction X-rays and neutrons with matter - Jean Daillant (Soleil synchrotron)
    13/05/2019, 09:00

    The aim of the lecture will be both to provide the attendees with solid yet simple principles to understand x-ray and neutron scattering and give them a flavor of more sophisticated applications.

    After a short introduction to synchrotron radiation and neutrons, I will discuss the interaction of x-rays and neutrons with matter.

    Starting from a geometrical description, I will first emphasize...

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  2. 2. Diffraction with X-rays and neutrons - Claire Colin (Institut Néel, Grenoble)
    13/05/2019, 10:00
  3. 3. Example I: multiferroics materials - Claire Colin (Institut Néel, Grenoble)
    13/05/2019, 11:30
  4. 4. Example II: materials for batteries - Gwaenaelle Rousse ( Sorbonne University)
    13/05/2019, 12:00

    This course will present the different battery technologies (Li-ion, Na-ion, all-solid-state batteries) and the materials used as electrodes and solid state electrolytes in those systems. Emphasis will be put on the main challenges faced to increase the battery performances, and how neutrons can be useful for tacking them.

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  5. 5. Introduction to small-angle scattering - the use of X-rays and Neutrons - Stephan Roth (KTH, Stockholm)
    13/05/2019, 14:00
  6. 6. Using neutrons to look at molecules in confinement - Heloisa N. Bordallo (Niels Bohr Institute)
    13/05/2019, 14:45
  7. 7. Example II: Application of small angle scattering X/n for the study of skyrmionics - Jonathan White
    13/05/2019, 16:00
  8. 8. Spectroscopy, inelastic scattering - Matteo D’Astuto (Institut Néel, Grenoble)
    14/05/2019, 09:00

    In the first part of this lecture I will introduce general concepts with a particular focus on the difference between resonant and non-resonant scattering of X-rays.

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  9. 9. Theory of functional magnetic materials, from x-ray spectroscopy and neutron scattering to magnetocaloric refrigeration - Olle Eriksson (Uppsala University)
    14/05/2019, 10:00
  10. 10. Example I : RIXS/INS for superconductivity - Matteo D’Astuto (Institut Néel, Grenoble)
    14/05/2019, 14:00

    I will then give some example of non-resonant scattering of X-rays. I will show in particular how this gives conceptually similar results to inelastic neutron scattering (INS) in the case of phonons. With example on superconductors, I will highlight the technical difference justifying the choice of X-ray or neutron as probe, depending on the material, the environment and the specific details...

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  11. 11. Example II : relaxation, QENS and ionic liquids - Alexander Matic (Chalmers Unversity)
    14/05/2019, 14:45

    Relaxation, QENS and ionic liquid

    Ionic liquids are salts with a melting temperature below 100°C and are of high interest as electrolytes for future energy technology. The interest arises from intrinsic properties such as high ionic conductivity, good electrochemical stability, negligible vapour pressure and non-flammability. In this lecture we will look into how neutrons and x-rays can be...

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  12. 12. X-ray based spectroscopy for the study of perovskite photovoltaic materials - Håkan Rensmo (Uppsala University)
    14/05/2019, 16:15
  13. 13. In-situ measurements - Stephen Hall
    14/05/2019, 17:00
  14. 14. Surface science technics - Frederic Ott (LLB, Saclay)
    15/05/2019, 09:00
  15. 15. Example I : reflectivity for batteries - Thomas Saerbeck (ILL)
    15/05/2019, 10:00
  16. 16. Photoemission and angle-resolved photoemission : A tool to probe the electronic structure of materials - Patrick Le Fèvre (SOLEIL synchrotron)
    15/05/2019, 11:15

    XPS
    Photoemission is based on the photoelectric effect. An incident photon is absorbed by an atom which uses its energy hν to emit an electron. In a photoemission experiment, this photoelectron is collected by an analyzer able to measure its kinetic energy as well as, in angle-resolved photoelectron spectroscopy (ARPES), its emission angle. In this lecture, we will describe this process and...

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  17. 17. Photo emission and absorption on catalysts - Jonas Weissenrieder (KTH, Stockholm)
    15/05/2019, 12:00
  18. 18. MAXIV - Ana Labrador
    16/05/2019, 09:00
  19. 22. European Spallation Source - Ken Andersen (ESS)
    16/05/2019, 09:30
  20. 19. University Industry Knowledge Transfer: Institutional & Organizational Factors - Devrim Göktepe-Hultén (Lund University)
    17/05/2019, 09:00
  21. 20. Imagery X-rays and neutrons - Nikolay Kardjilov (Helmholtz-Zentrum Berlin)
    17/05/2019, 10:00
  22. 21. Coherent X-rays - Gerardina Carbone (MAX-IV)
    17/05/2019, 11:30