GitPlanet

Cheap and reliable Node.js hosting starts at $3/month, and $1/month static HTML hosting

Created with love in Canada, visit hostnodejs.com today

Feel like to post an Ad? Learn Details
All Projects → lpsinger → ligo.skymap

lpsinger / ligo.skymap

Licence: other
Localization of gravitational-wave transients. Mirror of https://git.ligo.org/lscsoft/ligo.skymap

Programming Languages

python
139335 projects - #7 most used programming language
c
50402 projects - #5 most used programming language

Labels

ligoastrophysicsgravitational-wavesblack-holeneutron-star

Projects that are alternatives of or similar to ligo.skymap

PyFstat
a python package for gravitational wave analysis with the F-statistic
Stars: ✭ 41 (+127.78%)
Mutual labels:  ligo, astrophysics, gravitational-waves, neutron-star
PyCBC-Tutorials
Learn how to use PyCBC to analyze gravitational-wave data and do parameter inference.
Stars: ✭ 91 (+405.56%)
Mutual labels:  ligo, gravitational-waves
LEGWORK
Package for making predictions about stellar-origin sources in space-based gravitational wave detectors
Stars: ✭ 31 (+72.22%)
Mutual labels:  astrophysics, gravitational-waves
ldtk
Python toolkit for calculating stellar limb darkening profiles and model-specific coefficients using the stellar atmosphere spectrum library by Husser et al. (2013). Described in Parviainen & Aigrain, MNRAS 453, 3821–3826 (2015).
Stars: ✭ 26 (+44.44%)
Mutual labels:  astrophysics
astromodels
Spatial and spectral models for astrophysics
Stars: ✭ 21 (+16.67%)
Mutual labels:  astrophysics
octotiger
Astrophysics program simulating the evolution of star systems based on the fast multipole method on adaptive Octrees
Stars: ✭ 30 (+66.67%)
Mutual labels:  astrophysics
heyoka
C++ library for ODE integration via Taylor's method and LLVM
Stars: ✭ 151 (+738.89%)
Mutual labels:  astrophysics
nft-tutorial
Tezos FA2 NFT CLI Tool And Tutorial
Stars: ✭ 81 (+350%)
Mutual labels:  ligo
mini-nbody
A simple gravitational N-body simulation in less than 100 lines of C code, with CUDA optimizations.
Stars: ✭ 73 (+305.56%)
Mutual labels:  astrophysics
HBTplus
HBT+ subhalo finder and merger tree builder, the tool to get you out of mess and back to physics.
Stars: ✭ 12 (-33.33%)
Mutual labels:  astrophysics
awesome-spectra
🌈 A collaborative list of awesome tools for spectroscopy. Also, check:
Stars: ✭ 47 (+161.11%)
Mutual labels:  astrophysics
mwdust
Dust maps in the Milky Way
Stars: ✭ 21 (+16.67%)
Mutual labels:  astrophysics
amuse
Astrophysical Multipurpose Software Environment. This is the main repository for AMUSE
Stars: ✭ 115 (+538.89%)
Mutual labels:  astrophysics
ads2bibdesk
ads2bibdesk helps you add astrophysics articles listed on NASA/ADS to your BibDesk database using the new ADS Developer API
Stars: ✭ 32 (+77.78%)
Mutual labels:  astrophysics
naima
Derivation of non-thermal particle distributions through MCMC spectral fitting
Stars: ✭ 32 (+77.78%)
Mutual labels:  astrophysics
MAESTRO
A low Mach number stellar hydrodynamics code
Stars: ✭ 29 (+61.11%)
Mutual labels:  astrophysics
sncosmo
Python library for supernova cosmology
Stars: ✭ 53 (+194.44%)
Mutual labels:  astrophysics
astrodash
Deep learning for the automated spectral classification of supernovae
Stars: ✭ 25 (+38.89%)
Mutual labels:  astrophysics
GalerkinSparseGrids.jl
Sparse Grid Discretization with the Discontinuous Galerkin Method for solving PDEs
Stars: ✭ 39 (+116.67%)
Mutual labels:  astrophysics
gpuvmem
GPU Framework for Radio Astronomical Image Synthesis
Stars: ✭ 27 (+50%)
Mutual labels:  astrophysics
View All Similar Projects ➔

ligo.skymap

The ligo.skymap package provides tools for reading, writing, generating, and visualizing gravitational-wave probability maps from LIGO and Virgo. Some of the key features of this package are:

To get started, see the installation instructions or the full documentation.

GW170817 localization

This illustration of the position of GW170817, prepared using ligo.skymap, illustrates the main features of this package: rapid localization of compact binaries with BAYESTAR [1], three-dimensional density estimation [2] [3], cross-matching with galaxy catalogs, and visualization of gravitational-wave sky maps. Reproduced from [4].

[1]Singer, L. P., & Price, L. R. 2016, Phys. Rev. D, 93, 024013. https://doi.org/10.1103/PhysRevD.93.024013
[2]Singer, L. P., Chen, H.-Y., Holz, D. E., et al. 2016, Astropys. J. Lett., 829, L15. https://doi.org/10.3847/2041-8205/829/1/L15
[3]Singer, L. P., Chen, H.-Y., Holz, D. E., et al. 2016, Astropys. J. Supp., 226, 10. https://doi.org/10.3847/0067-0049/226/1/10
[4]Kasliwal, M. M., Nakar, E., Singer, L. P. et al. 2019, Science, 358, 1559. https://doi.org/10.1126/science.aap9455
Note that the project description data, including the texts, logos, images, and/or trademarks, for each open source project belongs to its rightful owner. If you wish to add or remove any projects, please contact us at [email protected].