Train and use neural networks to quickly approximate polarized synchrotron radiative transfer coefficients
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Updated
Nov 22, 2022 - Python
Train and use neural networks to quickly approximate polarized synchrotron radiative transfer coefficients
A physical-based accretion disk emission model coupled to the Adaptive Analytical Ray Tracing (AART) code that allows a fast parameter space exploration of black hole photon rings produced from synchrotron emission from 10 to 670 GHz.
A package for calculating some bent Laue monochromator properties for synchrotron x-ray source..
Synchrotron microCT scans for Cultural Heritage research at SESAME BEATS
A simulation of the Bloch Beamline at the MAX IV synchrotron in Lund, Sweden. The simulation is implemented in the McXtrace meta-language using ANSI-C.
FELpy is an instrument modelling python library for XFEL beamlines
Synchrotron spectrum
Nonlinear Thomson scattering ofintense laser pulses from beams and plasmas
Solves and propagates synchrotron radiation from a relativistic electron beam traversing bending magnets.
Image processing software for the CERIC beamtime proposal 20217193
diffSph 1.0: a Python tool to compute diffuse signals in dwarf spheroidal galaxies
X-ray wave propagation techniques in python
Home of the SOFT2 synthetic diagnostic code
working directory for x-ray wave propagation implemented in petsc
Routines for performing single photon counting and centroiding of CCD data
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