McStas - A neutron ray-trace simulation package

McStas is a general tool for simulating neutron scattering instruments and experiments. It is actively supported by DTU Physics, NBI KU, ESS, PSI and ILL. 

Simulated scattering from a hollow-cylinder vanadium sample.

The plot shows the intensity of scattered neutrons (red is highest intensity). The sample is at the center of the sphere with the neutron beam coming from the left. Clearly seen is the shadowing effect of the sample causing a lower intensity opposite the beam. Also seen is the effect of the non-symmetric geometry of the sample, causing lower intensity directly above and to the side of the sample.

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Recent news

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June 26th, 2017: Update-release 2.4.1 available

Dear all,

McStas 2.4.1 has been released and is ready for download via http://downloads.mcstas.org/mcstas-2.4.1

Release changes are listed below, and the full list of project changes is also available at http://mcstas.org/CHANGES_McStas.

Greetings from the McStas team - hope you will enjoy this new release! :-)

Peter Willendrup

Changes in McStas v.2.4.1, June 26th, 2017

McStas 2.4.1 is the sixth release in the 2.x series and fixes various issues with McStas 2.4, plus provides a small set of new developments.

Thanks:

• Thanks to all contributors of components, instruments etc.! This is what Open Source and McStas is all about!

Fixes of issues from last release:

• A number of issues from 2.4 were corrected, see the relevant GitHub issues for details

Tools:

• As for 2.4 we the default set of tools are Python-based and developed by Jakob Garde, DTU. The perl ones will stay around as a backup solution
  • See the GitHub Wiki doc page for usage
  • On Unix platforms, the perl tools are accessible by adding .pl to the wanted tool (mcgui.pl etc.)
  • On Windows, the perl tools are accessible by adding -pl to the wanted tool (mcgui-pl etc.)
  • BUT: Please use the Python tools and provide feedback rather that sticking with the Perl! :-)
• Minor feature developments:
  • The mcrun utility script now automatically stores a copy of the instr file in the dataset output folder
  • mcplot-pyqtgraph, mcdisplay-pyqtgraph and mcdisplay-webgl provide the --invcanvas to select white backgrounds in the plots (for now only available from the commandline!)
  • When installed, the mcstas-clusterscripts package provides an easy way to generate SLURM or PBS cluster batchfiles. The Python mcgui allows to access these via the File -> Configuration menu.

Components and instruments:

• MCPL library still at v. 1.1
  • A minor issue in MCPL_output.comp was fixed
  • Minor updates to the ESS_butterfly_MCPL.instr, see also: https://confluence.esss.lu.se/display/MCSTAS/Using+MCPL+as+source+term+in+McStas
• SNS_BASIS - model of the BASIS backscattering instrument at SNS, from Niko Tsapatsaris, ESS. Further serves as test instrument for two component contributions from the same author:
  • Spherical_Backscattering_Analyser, a spherical backscattering analyser with variable reflectivity and mosaic gaussian response.
  • Guide_m, guide piece like the normal Guide.comp, but with independent reflectivity specification for all four mirrors.

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May 19th, 2017: Three minor bugs/annoyances with 2.4

Three minor bugs/annoyances with 2.4 have been found, and now have fixes / workarounds:

1. If you experience that your Python mcgui File->Preferences dialogue crashes (Issue 470), please:
   • Linux deb: sudo apt-get install --reinstall mcstas-tools-python-mccodelib-2.4
   • Linux rpm: sudo yum reinstall mcstas-tools-python-mccodelib-2.4
   • MacOS / Windows: Manually replace the mccode_config.py file as described in the issue link
2. The MCPL_output component was shipped with a silly off-by-one error that may prevent you from merging the output. (Issue 475)
   • Solution: Cherry-pick MCPL_output.comp via the GitHub repo
3. On older Ubuntu's (14.04 tested), the dependency python3-pyqtgraph is not available (Issue 471)
   • Solution: Install a newer version from the 16.04 repos as described in the issue link

We envisage that new issues can occur over the next weeks, and aim to fix these by a minor update release.

Please report any bug found to our GitHub issue system

Best and happy simulating! :-)
Peter

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May 18th, 2017: Minor bug with McStas 2.4

A minor bug with McStas 2.4 has been found, which prevents the user from starting the File->Configuration dialogue in mcgui. If you encounter an error message like

/usr/share/mcstas/2.4/tools/Python/mcgui/../mccodelib/mccode_config.py:76: SyntaxWarning: name 'configuration' is used prior to global declaration
  global configuration
user config does not exist: /home/farhi/.mcstas/2.4/mccode_config.json
Traceback (most recent call last):
  File "/usr/share/mcstas/2.4/bin/../tools/Python/mcgui/mcgui.py", line 615, in handleConfiguration
    self.view.showConfigDialog()
  File "/usr/share/mcstas/2.4/tools/Python/mcgui/viewclasses.py", line 171, in showConfigDialog
    dlg = McConfigDialog()
  File "/usr/share/mcstas/2.4/tools/Python/mcgui/viewclasses.py", line 1007, in __init__
    prefix = mccode_config.get_mccode_prefix()
AttributeError: 'module' object has no attribute 'get_mccode_prefix'

You should:

• Deb/RPM Linux: install the package mcstas-tools-python-mccodelib-2.4 again
• macOS: Place this configuration file in your /Applications//McStas-2.4.app/Contents/Resources/mcstas/2.4/tools/Python/mccodelib/ folder (hint: run 'open $MCSTAS' from the terminal and you should get a finder window in /Applications//McStas-2.4.app/Contents/Resources/mcstas/2.4/)
• Windows: Place this configuration file in your C:\mcstas-2.4\lib\tools\Python\mccodelib folder (hint: run 'start %MCSTAS%' from the terminal and you should get an explorer window in C:\mcstas-2.4\lib)

Sorry for any inconvenience caused!

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May 18th, 2017: Updated install instructions.

Dear all,

The content of the installation pages have been updated, please consult

• http://www.mcstas.org/download/install_linux/ if on a Debian or RPM capable Linux
• http://www.mcstas.org/download/install_mac_os_x/ if Mac OS X 10.9 or later
• http://www.mcstas.org/download/install_windows/ if on Windows 7 or later

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May 17th, 2017: McStas 2.4 release!

Dear all,

McStas 2.4 has been released and is ready for download via http://downloads.mcstas.org/mcstas-2.4

Selected highligts from the release are listed below. The full list of changes is also available at http://mcstas.org/CHANGES_McStas.

Greetings from the McStas team - hope you will enjoy this new release! :-)

Peter Willendrup

Changes in McStas v.2.4, May 17th, 2017

McStas 2.4 is the fifth release in the 2.x series and fixes various issues with McStas 2.3, plus provides important new developments.

Note that we only provide 64 bit packages now, with the exception of Debian systems and the Windows platform! (32bit packages for a given platform can be made available on request)

• Tools:
  • From 2.4 we will default to use our new set of Python tools, developed by Jakob Garde, DTU.
    • See the Wiki doc page for usage
  • A mcgui editor with rich syntax highlighting
  • A mcrun utility script, with a few new features wrt. the legacy perl solution.
  • A newly developed mcplot-pyqtgraph, optically similar to the legacy mcplot solution, but with new features.
  • A newly developed mcdisplay-webgl
    • Fully 3D and interactive, uses your HTML5-capable browser with javascript controls
    • Pause or resume visualisation of the neutron rays in the instrument
    • Allows to keep already rendered rays to illustrate the full beam
    • Visualises rays with color, scaled with particle velocity (ideal for illustrating e.g. monochromatisation)
  • A newly developed mcdisplay-pyqtgraph, modeled after the legacy mcdisplay tool, but with various improvements
  • The cif2hkl software from iFit (http://ifit.mccode.org) is provided with McStas for easy generation of reflection lists for the Single_crystal and PowderN components
• Components and instruments:
  • A new set of components referred to as "Union"components, contribution by Mads Bertelsen Uni Copenhagen.
    • Allows very rich simulation of samples and sample environment
    • Several instrument files included to illustrate the capabilities and use
    • See his video presentation
  • Component and Instrument documentation headers have been uniformised in preparation for a Python mcdoc.
  • MCPL library updated to v. 1.1
  • ESS_butterfly.comp provides a time-focusing mode ala what was available in ESS_moderator_long.
  • ESS_butterfly_MCPL.instr implements the use of MCPL files in the ESS butterfly geometry
  • PowderN can "flip" the d_phi focusing to "zoom" on a range of angles.
  • New PSD_monitor_TOF that outputs a TOF signal pr. PSD pixel (single files). Used in templateNMX_TOF.instr
  • A version of Isotropic_Sqw from the McStas 2.0 release has been imported under the name of Isotropic_Sqw_legacy, since some users reported that release being in better agreement with experiments.
  • By the help of a Japanse user, we have identified issues with the performance of the supermirror coating option in FermiChopper.comp. We will investigate further and adress the issue over the course of 2017. Note that the component works as expected when not implementing supermirror slits.
  • Various bugfixes and improvements across the example instruments and component library
• Platforms:
  • Our macOS application bundle provides a 'miniconda' Python, including gcc, openmpi etc.
  • Our Linux packages for RPM systems provide a 'miniconda' Python for all Python tool dependencies.
  • Our Windows installer provides a 'miniconda' Python, including gcc.

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March 17th, 2017: Video presentation about using iFit with McStas by Emmanuel Farhi (ILL)

Dear all,

Emmanuel Farhi (McStas team & ILL Spectroscopy Group) visited the ESS DMSC in Copenhagen today and gave a nice talk about using iFit and McStas together. The presentation was recorded and is now available for viewing online here. Further information below:

Title:
Using iFit to control McStas simulations, and more.

Abstract:
The iFit tool will be presented. It is a generic data analysis and fitting infrastructure. A special focus will be put on the ability to launch McStas simulations, and retrieve the monitor data. The fitting capability of iFit allows to optimise a defined figure of merit (e.g. monitor or so) by changing the instrument parameters. This type feature is for instance used in the guide-bot from Mads Bertelsen, but it is applicable to any instrument model. Other features will be presented, such as the 4D convolution of a McStas TAS-type instrument with an 4D S(q,w) dispersion volume, which could be used for e.g. Bifrost. More on http://ifit.mccode.org.

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Previous news items: 2016, 2015, 2014, 2013, 2012, 2011, 2010, 2009, 2008, 2007, 2006, 2005, 2004, 2003,2002, 2001, 2000, 1999, 1998.

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Last Modified: Monday, 26-Jun-2017 14:27:01 CEST