description of the simulation (https://github.com/Fahima-Islam/c3dp/blob/master/docs/poster_ICANS.pdf)
- Simulation of the the diffractometer (https://github.com/Fahima-Islam/McStas_SNAP/blob/master/SNAP_2018.instr)
- SImulation of the pressure cells (Diamond Anvil cell -https://github.com/Fahima-Islam/c3dp/blob/master/notebooks/DAC_geometry_creation-forSimulation.ipynb) and (clamp cell -https://github.com/Fahima-Islam/c3dp/blob/master/notebooks/clampCell_geometry.ipynb)
- Optimization of the collimator for the given pressure cell (Diamond Anvil Cell- https://github.com/Fahima-Islam/c3dp/blob/master/notebooks/c3dp-Optimization_DAC%2BCOlli-50mmAway_from_Sample.ipynb, Clamp cell- https://github.com/Fahima-Islam/c3dp/blob/master/notebooks/c3dp-Optimization(cellbysample%20adding%20samplebyscattered%20N)-PerformanceIndex-length_channelGap.ipynb)
- Produced the .stl or .scad file of the collimator to be 3D printed (clamp cell - https://github.com/Fahima-Islam/c3dp/blob/master/notebooks/collimator_clampCell.ipynb, diamond anvil cell - https://github.com/Fahima-Islam/c3dp/blob/master/notebooks/collimator_differentBlade_threeSections_9n%2B1_chanels-splitting_correctly_DAC.ipynb)
- Produced the comparison in the diffraction pattern for with and without collimator
- Produced the gauge volume of the collimator (https://github.com/Fahima-Islam/c3dp/blob/master/notebooks/gauge_volume_collimator_cylinder.ipynb)
- Clamp cell:
- Diamond anvil cell:
- Gauge volume:
gauge volume example: https://github.com/Fahima-Islam/c3dp/blob/master/notebooks/gauge_volume_collimator_cylinder.ipynb
- Clone the repository and execute from within and execute:
$ git clone git@github.com:Fahima-Islam/c3dp.git
$ cd c3dp- Anaconda (Recommended)
$ conda install -c fi0 c3dp- Pypi
$ pip install c3dp