SOLEIL

SOLEIL is located in France and is both an electromagnetic radiation source covering a wide range of energies (from the infrared to the x-rays) and a research laboratory at the cutting edge of experimental techniques dedicated to matter analysis down to the atomic scale, as well as a service platform open to all scientific and industrial communities.

In applied research, SOLEIL can be used in many various fields such as pharmacy, medicine, chemistry, petrochemistry, environment, nuclear energy, and the automobile industry, as well as nanotechnologies, micromechanics and microelectronics, and more…

SOLEIL https://pan-training.eu/content_providers/soleil SOLEIL is located in France and is both an electromagnetic radiation source covering a wide range of energies (from the infrared to the x-rays) and a research laboratory at the cutting edge of experimental techniques dedicated to matter analysis down to the atomic scale, as well as a service platform open to all scientific and industrial communities. In applied research, SOLEIL can be used in many various fields such as pharmacy, medicine, chemistry, petrochemistry, environment, nuclear energy, and the automobile industry, as well as nanotechnologies, micromechanics and microelectronics, and more… /system/content_providers/images/000/000/002/original/logo_0.png?1638889338
Showing 15 materials.
Synchrotron SOLEIL’s contribution to Quantum Materials

Thanks to its cutting-edge instruments, Synchrotron SOLEIL contributes to the understanding of the phenomena at the origin of exceptional properties and, ultimately, to improving the performance of quantum materials for potential applications. In addition to this fundamental research, these...

Keywords: quantum materials, information storage, quantum topology, superconductivity, quantum computer

Resource type: Document

Synchrotron SOLEIL’s contribution to Quantum Materials https://pan-training.eu/materials/synchrotron-soleil-s-contribution-to-quantum-materials Thanks to its cutting-edge instruments, Synchrotron SOLEIL contributes to the understanding of the phenomena at the origin of exceptional properties and, ultimately, to improving the performance of quantum materials for potential applications. In addition to this fundamental research, these materials are also analysed at the request of industrial researchers. With a focus on… • Information Storage - Increase storage density, reduce energy consumption; • 2D quantum materials, for tomorrow’s electronics; • Transporting energy without loss; • Quantum Topology - Cup, donut and (among others) quantum computer. quantum materials, information storage, quantum topology, superconductivity, quantum computer beamline users industry
Synchrotron SOLEIL’s contribution to Medical Diagnosis and Prognosis

In close collaboration with hospitals, Synchrotron SOLEIL takes part in the design of new methods to diagnose diseases at an early stage and seeks to better understand the evolution of pathologies. Its long-term goal is to develop more adapted treatments, while reducing health expenditures. With...

Keywords: detection sensitivity, health, diseases, combined analysis techniques

Resource type: Document

Synchrotron SOLEIL’s contribution to Medical Diagnosis and Prognosis https://pan-training.eu/materials/synchrotron-soleil-s-contribution-to-medical-diagnosis-and-prognosis In close collaboration with hospitals, Synchrotron SOLEIL takes part in the design of new methods to diagnose diseases at an early stage and seeks to better understand the evolution of pathologies. Its long-term goal is to develop more adapted treatments, while reducing health expenditures. With a focus on... • Kidney stones - Understanding how they develop, finding new diagnostic tools, and treating the disease to avoid dialysis and kidney transplant. • Hepatic steatosis - When fat builds up in the liver - Diagnosing steatosis at an early stage. Understanding the evolution of the disease at the cell level. Determining the quality of a liver transplant before transplantation. • Brain tumors - Providing surgeons with real-time diagnosis during tumor removal. Preserving the most important areas of the brain. Improving the survival rate and quality of life of patients who have undergone surgery. • Wilson disease - Being able to formulate a reliable diagnosis of the disease. Proposing an efficient, simple technique for that diagnosis. detection sensitivity, health, diseases, combined analysis techniques beamline users industry
Synchrotron SOLEIL’s contribution to What’s on our plates

Synchrotron SOLEIL contributes to improving the safety of food, as well as its nutritional and organoleptic qualities, notably through a strong partnership with INRAe, and by hosting researchers from major institutes and schools in the agri-food sector. With a focus on... • Food safety &...

Keywords: combined analysis techniques, food safety, allergens, astringency

Resource type: Document

Synchrotron SOLEIL’s contribution to What’s on our plates https://pan-training.eu/materials/synchrotron-soleil-s-contribution-to-what-s-on-our-plates Synchrotron SOLEIL contributes to improving the safety of food, as well as its nutritional and organoleptic qualities, notably through a strong partnership with INRAe, and by hosting researchers from major institutes and schools in the agri-food sector. With a focus on... • Food safety & allergies – Do we really know what’s on our plates? • Milk & dairy products - Maintaining their nutritional qualities and understanding their assimilation by the body. • Fried foods, meat and foie gras - Reducing caloric intake, optimizing cooking processes. • The mouthfeel of astringency - Deciphering the mechanisms underlying food flavor. combined analysis techniques, food safety, allergens, astringency beamline users industry
iFit: a simple library to analyze data

The iFit library (pronounce [eye-fit]) is a set of methods to load, analyze, plot, fit and optimize scientific data sets and models, and export results. iFit is based on Matlab, but can also be launched without Matlab license (stand-alone version).Matlab The library focuses on doing the math...

Keywords: McStas, DFT, phonons, matlab

Resource type: Git, tool

iFit: a simple library to analyze data https://pan-training.eu/materials/ifit-a-simple-library-to-analyze-data The iFit library (pronounce [eye-fit]) is a set of methods to load, analyze, plot, fit and optimize scientific data sets and models, and export results. iFit is based on Matlab, but can also be launched without Matlab license (stand-alone version).Matlab The library focuses on doing the math right. Any text file can be imported straight away, and a large set of binary files are supported. Any data dimensionality can be handled, including event based data sets (even though not all methods do work for these). Any model can be assembled for fitting data sets. McStas, DFT, phonons, matlab
cif2hkl

A program that computes structure factors |F^2| for neutrons, x-rays, and electrons. *cif2hkl* - CrysFML based utility for generating .lau/.laz files for e.g. McStas. *Purpose* : Reads a CIF/CFL/SHX/PCR crystallographic description and generates a HKL F^2 reflection list.

Keywords: McStas, McXtrace, CrysFML, structure factor

Resource type: Git

cif2hkl https://pan-training.eu/materials/cif2hkl A program that computes structure factors |F^2| for neutrons, x-rays, and electrons. *cif2hkl* - CrysFML based utility for generating .lau/.laz files for e.g. McStas. *Purpose* : Reads a CIF/CFL/SHX/PCR crystallographic description and generates a HKL F^2 reflection list. McStas, McXtrace, CrysFML, structure factor
PyMca tutorial

A manual and a tutorial notebook on how to use PyMca to fit XRF data obtained on the beamline SIRIUS. To use the notebook first uncompress files.zip and save.zip

Scientific topics: x-ray fluorescence

Keywords: PyMca, XRF

Resource type: pdf, git

PyMca tutorial https://pan-training.eu/materials/pymca-tutorial A manual and a tutorial notebook on how to use PyMca to fit XRF data obtained on the beamline SIRIUS. To use the notebook first uncompress files.zip and save.zip x-ray fluorescence PyMca, XRF
Synchrotron SOLEIL’s contribution to Astrophysics & Astrochemistry

Synchrotron SOLEIL contributes to the identification and study of the electronic and molecular structure of extraterrestrial material, by reproducing reactions naturally generated by the radiation of our Sun and other stars, and by deciphering the chemical reactions that occur in planetary...

Keywords: astrophysics, astrochemistry, cosmic dust, molecules of life , Titan

Resource type: Document

Synchrotron SOLEIL’s contribution to Astrophysics & Astrochemistry https://pan-training.eu/materials/synchrotron-soleil-s-contribution-to-astrophysics-astrochemistry Synchrotron SOLEIL contributes to the identification and study of the electronic and molecular structure of extraterrestrial material, by reproducing reactions naturally generated by the radiation of our Sun and other stars, and by deciphering the chemical reactions that occur in planetary atmospheres and in interstellar space. With a focus on... • Helping to decipher signals of molecules in space. • Cosmic dust, sources of knowledge. • Reproducing astrophysical environments, to better understand them • The molecules of life – delivered from space? astrophysics, astrochemistry, cosmic dust, molecules of life , Titan beamline users industry
Synchrotron, a light source for research

PART 1: SOLEIL, a light source for research How does a synchrotron work? Who comes here to perform experiments? Find some answers in this illustrated video. PART 2: The lights of SOLEIL What lights are used at SOLEIL? Why such a diversity? Find some answers in this illustrated video, very...

Keywords: synchrotron, Soleil

Resource type: video

Synchrotron, a light source for research https://pan-training.eu/materials/synchrotron-a-light-source-for-research PART 1: SOLEIL, a light source for research How does a synchrotron work? Who comes here to perform experiments? Find some answers in this illustrated video. PART 2: The lights of SOLEIL What lights are used at SOLEIL? Why such a diversity? Find some answers in this illustrated video, very accessible and didactic. PART 3: When light explores matter What happens when light is shone at a sample? What techniques and applications are available at SOLEIL? Find some answers in this illustrated video, very accessible and didactic. Find more videos on our website https://www.synchrotron-soleil.fr/en/videos synchrotron, Soleil general public
Learning pack: Optics

What optic devices are used to direct light, concentrate it and select a wavelength? Do they all involve the same technology? An educational introduction to optical instruments. Poster "Optical instruments suited to the light of the SOLEIL"

Keywords: synchrotron, optical instruments

Resource type: Poster

Learning pack: Optics https://pan-training.eu/materials/learning-pack-optics What optic devices are used to direct light, concentrate it and select a wavelength? Do they all involve the same technology? An educational introduction to optical instruments. Poster "Optical instruments suited to the light of the SOLEIL" synchrotron, optical instruments general public
Learning pack: Synchrotron light

What are the devices and physical phenomena used to emit synchrotron light? An educational introduction to the synchrotron sources. Poster "Exploring matter by the light of SOLEIL"

Keywords: synchrotron light

Resource type: Poster

Learning pack: Synchrotron light https://pan-training.eu/materials/learning-pack-synchrotron-light What are the devices and physical phenomena used to emit synchrotron light? An educational introduction to the synchrotron sources. Poster "Exploring matter by the light of SOLEIL" synchrotron light general public
Learning pack: The synchrotron and its lights

The machine and beamlines, optical devices, magnetism vacuum and information about the analytic techniques applied on a synchrotron and through examples of studies carried out at the synchrotron SOLEIL.

Scientific topics: extended x-ray absorption fine structure, absorption spectroscopy

Keywords: synchrotron, optics, monochromators, magnetic fields, ultra-high vacuum, applications, xanes & exafs

Resource type: Document

Learning pack: The synchrotron and its lights https://pan-training.eu/materials/learning-pack-the-synchrotron-and-its-lights The machine and beamlines, optical devices, magnetism vacuum and information about the analytic techniques applied on a synchrotron and through examples of studies carried out at the synchrotron SOLEIL. extended x-ray absorption fine structure absorption spectroscopy synchrotron, optics, monochromators, magnetic fields, ultra-high vacuum, applications, xanes & exafs general public masters students
How to read/edit a nexus file using h5py

A tutorial notebook on how to read and edit a nexus file using h5py.

Keywords: NeXus

Resource type: git, jupyter notebook

How to read/edit a nexus file using h5py https://pan-training.eu/materials/how-to-read-edit-a-nexus-file-using-h5py A tutorial notebook on how to read and edit a nexus file using h5py. NeXus
GenX tutorial

howto_batch The notebook batch_genx.ipynb details the different steps on how to use GenX with command lines. The aim is to batch fits for XRR without the GUI. To do so we edit the .hgx files, which are just hdf5 files. The script batch_genx.py is a condensed script without all the details...

Scientific topics: x-ray reflectivity

Keywords: GenX, jupyter notebook, XRR

Resource type: git, jupyter notebook

GenX tutorial https://pan-training.eu/materials/genx-tutorial howto_batch The notebook batch_genx.ipynb details the different steps on how to use GenX with command lines. The aim is to batch fits for XRR without the GUI. To do so we edit the .hgx files, which are just hdf5 files. The script batch_genx.py is a condensed script without all the details from the notebook. howto_parameters Explains what are the different parameters in the GUI. x-ray reflectivity GenX, jupyter notebook, XRR
JupyFluo

JupyFluo is a Jupyter Notebook to analyze X-Ray Fluorescence (XRF) experiments on the beamline SIRIUS at the synchrotron SOLEIL. The notebook should be first set up by an Expert following the instructions in the "Expert" section. User can then follow the guidelines in the "User" section to start...

Scientific topics: x-ray fluorescence

Keywords: X-ray fluorescence, jupyter notebook, SIRIUS beamline

Resource type: git, jupyter notebook

JupyFluo https://pan-training.eu/materials/jupyfluo JupyFluo is a Jupyter Notebook to analyze X-Ray Fluorescence (XRF) experiments on the beamline SIRIUS at the synchrotron SOLEIL. The notebook should be first set up by an Expert following the instructions in the "Expert" section. User can then follow the guidelines in the "User" section to start using the notebook. Please note that the notebook is currently in development. As such, be skeptical about any unexpected results. Any feedback on the notebook or the code is welcome. x-ray fluorescence X-ray fluorescence, jupyter notebook, SIRIUS beamline
JupyLabBook

A Jupyter Notebook used as an interactive lab book on the beamline SIRIUS (SOLEIL Synchrotron).

Keywords: labbook, jupyter notebook, SIRIUS beamline

Resource type: git, jupyter notebook

JupyLabBook https://pan-training.eu/materials/jupylabbook A Jupyter Notebook used as an interactive lab book on the beamline SIRIUS (SOLEIL Synchrotron). labbook, jupyter notebook, SIRIUS beamline
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