Activity log
Someone
changed Language
to: English
Someone
changed Keywords
to: ["data analysis library pandas", "jupyter", "Python", "numpy", "matplotlib", "Ipywidgets", "scipy", "mcstas script"]
Someone
changed Doi
to:
Someone
changed Short description
to: If you have self enrolled onto the course please wait 5 minutes before launching the JupyterHub
Access the course by clicking on the JupyterHub link.
Click Start My Server > Start and your container will launch.
In the folder called Notebooks you will find the following:
1. Jupyter basics: Jupyter notebook introduction.
2. Python basics: Basic language principles, Sequence data types, Control structures, Working with functions, Using modules, Input and output, Python 2 vs 3, Python classes.
3. Using external Libraries: Scientific libraries numpy, Plotting with matplotlib, Ipywidgets, Fitting scipy, Data analysis library pandas, Testing.
4. Molecular visualization: Visualization tutorial, Atomistic simulation environment.
5. McStas script
6. SCIPP
You can find a copy of the notebooks at https://github.com/ess-dmsc-dram/python-course-ikon/tree/master/notebooks
This course was created by the Data Reduction, Analysis and Modelling group of the ESS.
This version of the course was specifically created for IKON21 in September 2021.
Someone
changed Language
to: English
Someone
changed Keywords
to: ["crispy", "core-level spectra"]
Someone
changed Doi
to:
Someone
changed Short description
to: Crispy is a modern interface for calculating core-level spectra.
It uses Quanty for calculations and is written in python.
Its primary use is as a sleek GUI that runs on your computer.
However it can also be used like a python module within a Jupyter notebook.
Here you can have a go at using Crispy without local installation:
1. Launch JupyterHub
2. Click Start my server
3. Select 0-first_calculation.ipynb
Crispy Documentation: https://www.esrf.fr/computing/scientific/crispy/
GitHub Page: https://github.com/mretegan/crispy
Someone
changed Language
to: English
Someone
changed Keywords
to: ["isis virtual reflectometry"]
Someone
changed Doi
to:
Someone
changed Short description
to: This course was originally developed by Andrew McCluskey from the European Spallation Source for the ISIS Virtual Reflectometry Training Course.
The full course can be read as a online book at: https://www.reflectometry.org/isis_school/intro.html
The files can found on GitHub at https://github.com/reflectivity/isis_school
To run the course as interactive Jupyter notebooks here, click on the JupyterHub link and then Start My Server
If you have self enrolled onto the course please wait 5 minutes before launching the JupyterHub.
antoine
antoine
updated
Simulation of boron carbide diffraction with D2B at 2022-05-06 13:17:51 UTC.
Someone
changed Language
to: English
Someone
changed Keywords
to: ["simulation", "boron carbide diffraction", "D2B"]
Someone
changed Doi
to:
Someone
changed Short description
to: Simulation of boron carbide diffraction with D2B
Someone
changed Short description
to: SimEx is a program for simulating experiments at advanced laser and x-ray light sources. All aspects of a typical experiment can be modeled. This includes the photon source, light transport through optics, interaction with a target or sample, scattering from the latter, photon detection, and data analysis.
A simulation can contain, one, several, or all of these parts.
Documentation: https://simex.readthedocs.io/en/latest/include/introduction.html
Github: https://github.com/PaNOSC-ViNYL/SimEx
Here you can have a go at using SimEx without local installation:
1. Launch JupyterHub
2. Click Start my server
3. Select a notebook.
Here is a list of notebooks available:
crl\_focus - currently not working!
edge
EuXFEL\_SASE1\_SPB\_KBfocus - currently not working!
propagation\_example\_01
propagation\_example\_02 - currently not working!
spheres - currently not working!
wire
Someone
changed Short description
to: SimEx is a program for simulating experiments at advanced laser and x-ray light sources. All aspects of a typical experiment can be modeled. This includes the photon source, light transport through optics, interaction with a target or sample, scattering from the latter, photon detection, and data analysis.
A simulation can contain, one, several, or all of these parts.
Documentation: https://simex.readthedocs.io/en/latest/include/introduction.html
Github: https://github.com/PaNOSC-ViNYL/SimEx
Here you can have a go at using SimEx without local installation:
1. Launch JupyterHub
2. Click Start my server
3. Select a notebook.
Here is a list of notebooks available:
crl\_focus - currently not working!
edge
EuXFEL_SASE1_SPB_KBfocus - currently not working!
propagation_example_01
propagation_example_02 - currently not working!
spheres - currently not working!
wire
Someone
changed Language
to: English
Someone
changed Keywords
to: ["simulation", "SimEx "]
Someone
changed Doi
to:
Someone
changed Short description
to: SimEx is a program for simulating experiments at advanced laser and x-ray light sources. All aspects of a typical experiment can be modeled. This includes the photon source, light transport through optics, interaction with a target or sample, scattering from the latter, photon detection, and data analysis.
A simulation can contain, one, several, or all of these parts.
Documentation: https://simex.readthedocs.io/en/latest/include/introduction.html
Github: https://github.com/PaNOSC-ViNYL/SimEx
Here you can have a go at using SimEx without local installation:
1. Launch JupyterHub
2. Click Start my server
3. Select a notebook.
Here is a list of notebooks available:
crl_focus - currently not working!
edge
EuXFEL_SASE1_SPB_KBfocus - currently not working!
propagation_example_01
propagation_example_02 - currently not working!
spheres - currently not working!
wire
antoine
antoine
updated
Materials science in the virtual neutron facility at 2022-05-06 13:00:21 UTC.
Someone
changed Language
to: English
Someone
changed Keywords
to: ["virtual neutron facility", "material science", "rechargeable battery", "imaging", "diffraction", "quasi-elastic neutron scattering", "neutron experiments"]
Someone
changed Doi
to:
Someone
changed Language
to: English
Someone
changed Keywords
to: ["SasView"]
Someone
changed Doi
to:
Someone
changed Language
to: English
Someone
changed Keywords
to: ["muons", "magnetism"]
Someone
changed Doi
to:
Someone
changed Language
to: English
Someone
changed Resource type
to: ["Moodle course", "e-learning", "slides"]
Someone
changed Doi
to:
Someone
changed Keywords
to: ["extract key length scales", "muons", "superconductivity"]
Someone
changed Language
to: English
Someone
changed Doi
to: