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CSiBORG analysis tools.
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* Add edited files * Update scripts * Updates * Little fix * Little ifx |
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README.md | ||
setup.py |
CSiBORG Tools
Tools for analysing the suite of Constrained Simulations in BORG (CSiBORG) simulations. The interface is designed to work with the following suites of simulations: CSiBORG1 (dark matter-only RAMSES), CSiBORG2 (dark matter-only Gadget4), Quijote (dark-matter only Gadget2), however with little effort it can support other simulations as well.
Ongoing projects
Data to calculate
- Process all CSiBORG1 snapshots (running).
- Calculate halo properties for CSiBORG1
- Calculate initial properties for CSiBORG1
- Calculate halo properties for CSiBORG2
- Calculate initial properties for CSiBORG2
- Process all Quijote simulations.
- Calculate halo properties for Quijote
- Calculate initial properties for Quijote
General
- Add new halo properties to the catalogues.
- Add initial halo properties to the catalogues.
- Add a new flag for flipping x- and z-coordinates fro catalogues, snapshots and field readers.
- Add radial velocity field loader.
Consistent halo reconstruction
- Make a sketch of the overlap definition and add it to the paper.
- Re-calculate the overlaps for CSiBORG1, Quijote and CSiBORG2
- Fix the script to calculate the initial lagrangian positions etc.
Enviromental dependence of galaxy properties
- Prepare the CSiBORG one particle files for SPH.
- Transfer, calculate the SPH density field for CSiBORG1 and transfer back.
- Check that the velocity-field flipping of x and z coordinates is correct.
- Evaluate and share the density field for SDSS and SDSSxALFALFA for both CSiBORG2 and random fields.
- Check and verify the density field of galaxy colours (cannot do this now! Glamdring is super slow.)
- Calculate the radial velocity field for random realizations (submitted)
- Send Catherine concatenated data.
- Start analyzing DiSPERSE results.
Mass-assembly of massive clusters
- Make a list of nearby most-massive clusters.
- Write code to identify a counterpart of such clusters.
- Write code to make a plot of mass-assembly of all clusters within a certain mass range from the random simulations.
- Write code to compare mass-assembly of a specific cluster with respect to random ones.
Effect of small-scale noise
- Study how the small-scale noise variation affects the overlap measure, halo concentration and spin.
- Add uncertainty on the halo concentration.
Gravitational-wave and large-scale structure
- Validate the velocity field results agains Supranta data sets.
- Write code to estimate the enclosed mass and bulk flow.
- Write code to estimate the average radial velocity in a spherical shell.
- Write code to calculate the power spectrum of velocities.
- Estimate the amplitude of the velocity field in radial shells around the observer, estimate analogous results for random simulations, and see if they agree within cosmic variance.
- Calculate power spectra of velocities and maybe velocity dispersion.
- Make the velocity field data available.
CSiBORG meets X-ray
- Make available one example snapshot from the simulation. Mention the issue with x- and z-coordinates.
- Answer Johan and make a comparison to the Planck clusters.
CSiBORG advertising
- Decide on the webpage design and what to store there.
- Write a short letter describing the simulations.
Calculated data
Enclosed mass & bulk velocity
- CSiBORG2_main, CSiBORG2_varysmall, CSiBORG2_arandom
SPH-density & velocity field
- CSiBORG2_main, CSiBORG2_random, CSiBORG2_varysmall
- Evaluated for SDSS and SDSSxALFALFA in: CSiBORG2_main, CSiBORG2_random
Radial velocity field
- *CSiBORG2_main, CSiBORG2_random