Tutorials (Monday 4 February)

Organiser:
Sakura Pascarelli, ESRF, contact

Date: Monday 4 February

• Morning session (9h00-12h30): Introduction to XAS and EXAFS (all participants)
  Venue: ILL Chadwick Amphitheatre
   
• Afternoon session (14h00-18h00): Parallel sessions
  Venues: see below

Scope

Introduction to XAS and EXAFS

This tutorial provides a very general introduction to the fundamentals of X-ray absorption spectroscopy. The origin of the Extended X-ray Absorption Fine Structure (EXAFS) will be explained first using hand waving arguments. A simple theoretical description of this quantum mechanical phenomenom will then be given and the EXAFS equation will be derived in a more formal manner starting from Fermi's golden rule for the transition probability. A simple introduction to XAS data analysis will be given: extraction of quantitative values for local structural parameters (near neighbor distances, coordination numbers, and atomic species) from the EXAFS and information on formal valence and coordination chemistry from the XANES. Finally, a few samples of applications will be given, starting from major historical EXAFS breakthroughs to a selection of recent results at the ESRF.

Parallel sessions

• EXAFS data analysis (maximum of 8 participants)
  Venue: meeting room 03 1-13

The basic steps of EXAFS data analysis will be shown "hands-on", starting with the extraction of the EXAFS signal from the measured absorption spectrum to the quantitative fitting of the first coordination shells. We will use the Athena and Artemis software packages. The tutorial will be split into two sessions: a common session, where we all analyze the same data set together, and individual sessions where each participant will be able to do data  analysis exercises with available data or with their own data.

• FDMNES theory and applications (maximum of 8 participants)
  Venue: meeting room 03 1-07

FDMNES performs calculations of XANES, DAFS, XRD and XRS using fully relativistic monoelectronic calculations (DFT - LSDA). It uses the Finite Difference Method (FDM) to solve the Schroedinger equation, and the shape of the potential is free (non- Muffin tin approximation). This 3 hour-tutorial will introduce the theoretical frameword of the FDMNES approach, and will provide an opportunity for hands-on practice of data analysis.

Note: participants of this session should bring their personal laptop (Windows, Linux or MAC) with a software to plot spectra (Origin, Kaleidagraph...)

• Visit of FAME and FAME-UHD (maximum of 8 participants) - CANCELLED

Following the general introduction to XAS and EXAFS done in the morning, this visit of both FAME (French Absorption spectroscopy beamline in Material and Environmental sciences) and FAME-UHD (Ultra High Dilution) beamlines will be a perfect opportunity to discover the specificities of a XAS beamline, and the requirements of XAS measurements. The potential of XAS, especially for challenging samples, will be detailed with the presentation of real world examples. With the visit of FAME-UHD we'll introduce the improvements provided by high energy resolution detection set-ups (crystal analyzers) and the opportunities they offer to XAS users.

• Introduction to the XAS technique (maximum of 4 participants)
  Beamline Simulator BM08

This introduction to the XAS technique will consist in a first part focused on data collection (how to prepare a sample, how to choose a proper data collection strategy, ...)  and will make use of the beamline simulator.  In the second part the data analysis (in a simple version, just the first shell) will be presented and if time is available students will have the opportunity of carrying it out themselves on the data just 'collected'.

ESRF organisers:
Federico Zontone, Yuriy Chushkin, Julio Cesar da Silva, contact

UOC organisers:
Oier Bikondoa, Beatrice Ruta

Venue: EMBL seminar room 9-10
Date: Monday 4 February - 9h00-12h00
 

Scope

Modern X-ray sources provide intense beams with high degree of coherence and unique capabilities to probe the microscopic arrangements occurring in a material. Under coherent illumination, the X-ray scattering pattern shows a grainy intensity distribution called speckle pattern. Such speckle pattern depends on the exact instantaneous structure of the sample. X-ray Photon Correlation Spectroscopy (XPCS) analyses the temporal speckle intensity fluctuations and can provide information about spontaneous and driven collective dynamics in the 10^-5-10⁴ s time range, in a large variety of soft and hard systems, e.g. from the meso-scale in colloids, gels and phase-ordering alloys, down to the atomic length scale in deeply super-cooled melts and structural glasses.

An oversampled static speckle pattern can be inverted to obtain a high resolution image of the scattering object using phase retrieval methods. The two typical techniques are Coherent Diffraction X-ray Imaging (CXDI) and ptychography, whose applications depend on the size and characteristics of the sample. When combined with tomography, CXDI and ptychography can provide quantitative high resolution 3D images of objects with sizes ranging from micrometers to millimetres. The spatial resolution is limited by the highest scattering vector where speckles are recorded rather than by the size of the beam or the pixel size of the detector.

The tutorial aims to provide basic knowledge of the coherent properties of X-ray sources and to illustrate applications of coherent X-rays for imaging and dynamics studies. Finally, we will outline the exciting perspectives with the ERSF-EBS, where coherence areas and intensities of are promised to increase up to 100 times.

Programme

9:00-9:40 Modern X-ray sources and coherence - Federico Zontone

9:45-9:55 Break

9:55-10:35 XPCS: Principles and highlights - Yuriy Chushkin

10:40-10:50 Break

10:50-11:30 Ptychographic CXDI: Principles and highlights – Julio Cesar da Silva

11:35-12:00 Future perspectives with EBS - Beatrice Ruta & O. Bikondoa

Organiser:
Alexander Rack, ESRF, contact

Venue: Meeting room MD-1-21
Date: Monday 4 February - 10h00-18h30

Scope

Imaging methods using penetrating radiation provide insight into heterogeneous materials or engineering components. In combination with (micro)tomography they yield a fully three-dimensional representation of the object (micro)structure. Both computed tomography with high spatial resolution and quantitative volume image analysis have made enormous progress. In particular for materials and natural science applications the combination of high-resolution three-dimensional imaging and the subsequent image analysis exploiting the fully preserved spatial structural information yield new and exciting insights.

In this tutorial, field-tested and up-to-date methods for quantitatively analysing three-dimensional images are introduced. By selected applications  the use of volume image analysis will be outlined: it allows for determination of spatial cross-correlations between different constituents of a specimen, investigation of orientations or derivation of statistically relevant information such as object size distributions. The core part of this work consists, besides the exemple application scenarios, in the processing chain, the tools and methods used. Dedicated time will be reserved to discuss with experts on an individual basis.

Participants are welcome to bring their own data sets for preliminary tests and discussion.

Organiser:
Michael Sztucki, ESRF, contact

Venue: EMBL Seminar room 9-10
Date: Monday 4 February - 14h00-16h00

Scope

The seminar covers in a first part an introduction to good practice of (U)SAXS/WAXS data recording for quantitative analysis. The necessary SAXS theory and its appropriate experimental implementation will be discussed as well as (on-line) data reduction steps and data formats.
The second more practical part of the presentation is dedicated to analysis strategies of SAXS data. This covers simple approaches like Porod and Guinier analysis, an introduction to form and structure factors and model fitting. Typical examples from the field of soft matter illustrate the presentation, using software available for on-line data reduction and visualisation at beamline ID02 (SAXSutilities, saxs programs, spd, PyFAI). An overview and practical demonstration of other available fitting programs like sasview, sasfit, Irena will completes the tutorial.

Organiser:
Marius Retegan, ESRF, contact

Venue: meeting room BEL 1-01
Date: Monday 4 February - 9h00-12h00

Scope

The goal of the tutorial is to familiarize the participants with the simulation of core-level spectra using semi-empirical multiplet approaches. Following a short introduction of the theoretical aspects, a hands-on training will be given. This will include examples of simulating X-ray absorption (XAS) and resonant inelastic X-ray scattering (RIXS) spectra for transition metals and rare earths.

All simulations will be performed using Crispy (http://www.esrf.eu/computing/scientific/crispy), a modern user interface for the Quanty software package (http://www.quanty.org).

The participants are asked to bring their laptops.

Organiser:
Jean-Sébastien Micha, ESRF, contact

Venue: meeting room MF-1-06 MTBF
Date: Monday 4 February - 9h00-12h00

Scope

Polychromatic (Laue) diffraction at submicrometer scale: main steps of analysis of simple and single to complex and numerous Laue patterns. The tutorial will cover the main concepts and algorithms involved in the standard analysis which are implemented in modules of the software suite LaueTools including Graphical User Interfaces and scripting capabilities: digital image processing, laue pattern indexation, orientation & strain refinement and 2D peak shape simulation. Examples will be given using data images recorded at the ESRF on CRG-IF BM32 beamline. Typical notebooks for sample 2D map data analyses will also be handled.

LaueTools can be installed on laptops before the tutorial at http://sourceforge.net/projects/lauetools/

Organiser:
Vincent Favre Nicolin, ESRF, contact

Venue: meeting room MF-1-06 MTBF
Date: Monday 4 February -14h00-18h00

Scope

Organisers:
Michela Brunelli and Beatrice Ruta (ESRF User Organisation) in collaboration with the ESRF Communication Unit, contact

Venue: ESRF Auditorium
Date: Monday 4 February - 12h00–14h00

Scope

Roundtable on Gender parity in science. Debated questions will include "Do women and men have equal opportunities in scientific research and academia? How traditional gender roles hold back female scientists? How long until women and men are equally represented in science?"

It will take place at the ESRF during the first day of the ESRF User Meeting, and will be animated by Giovanna Fragneto (Large Scale Structures Group Leader, ILL) and Nedjma Bendiab (lecturer at Université Grenoble Alpes and scientist at Institut NEEL).

The Roundtable will be followed by a buffet lunch offered to all participants.

Invited Speakers are:   

•  Cornelius Gross, Deputy Head, EMBL-Rome
• Eva Pebay-Peyroula, former IBS Director

Invited Guests are:

• Christiane Alba-Simionesco, CEA, former LLB Director
• Brigitte Plateau, General Administrator of Grenoble-INP and "Directrice Générale de l'enseignement supérieur et de l'insertion professionnelle en Conseil des Ministres"
• Jean Daillant, Soleil Synchrotron General Director
• Sine Larsen, former ESRF Director

Download the programme and the flyer.