An implementation of the deflection angle in the equitorial plane as a function of the black hole mass, spin, and asymptotic impact parameters, as detailed in Iyer and Hansen (2009).
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Updated
Jul 19, 2023 - Julia
Astrophysics is the scientific discipline that deals with the physics of objects, phenomena, and processes in outer space, including (but not limited to) stars, galaxies, compact objects, and the formation of the Universe.
An implementation of the deflection angle in the equitorial plane as a function of the black hole mass, spin, and asymptotic impact parameters, as detailed in Iyer and Hansen (2009).
A neural network framework for emulating stellar population synthesis. Written in Julia.
Provides access in Julia to Charlie Conroy's Flexible Stellar Population Synthesis code.
A tool to merge AstroSat/SXT event lists from different orbits
Vectorized N-body code (Julia)
Unitful and differentiable gravitational N-body simulation code in Julia
Implementation in Julia and C of our star formation model.
Script to convert the public Agora ICs files into the GADGET binary and HDF5 formats.
A Julia module for the data analysis of Arepo hydrodynamical simulations.
Some Julia code written for my research
Ray-tracing of photon-axion conversion around neutron stars.
Experimental measurements and results made computationally available in Pluto.jl notebooks.
Julia module for creating plots, GIFs, and videos from the data produced by Gadget2/3/4 simulations.
Shear Optimization with ShOpt.jl, a julia package for empirical point spread function characterizations
next-generation sky map manipulation on rectangular pixels
Blackbody radiation curves, with support for Unitful.jl
Distributed physical tree interfaces for Julia
Extensible spacetime agnostic general relativistic ray-tracing (GRRT).
GWecc.jl: Pulsar timing array signals due to eccentric supermassive binaries