radiation-physics
There are 29 repositories under radiation-physics topic.
pymedphys/pymedphys
A community effort to develop an open standard library for Medical Physics in Python. Building quality transparent software together via peer review and open source distribution. Open code is better science.
dicompyler/dicompyler-core
A library of core radiation therapy modules for DICOM RT used by dicompyler
MarcinWachowiak/semiconductor-radiation-detector
Semiconductor Radiation Detector - pcb, schematics, simulation files
OpenSaMD/OpenSaMD
We help you commercialise your open source medical software.
OpenDosimeter/OpenDosimeter
Open-source project for a low-cost battery-powered personal X-ray dosimeter! Using a custom PCB powered by a Raspberry Pico with an X-ray sensor (LYSO crystal + SiPM assembly)
radiofisica-hgugm/kali_mc
Software for calculating IORT treatments with a LIAC HWL linac, based on precalculated Monte Carlo dose distributions in water.
KaleyWhite/med-phys-notes
Notes and procedures that I wrote as Radiation Physicist Assistant at Cookeville Regional Medical Center
KaleyWhite/med-phys-scripts
Code from my work as Radiation Physicist Assistant at Cookeville Regional Medical Center
MC-kit/mckit
Tools to work with MCNP models and results
FotiouK/Tailoring-proton-therapy-for-lung-cancer-A-new-approach-to-beam-angle-selection
Proton beam geometry optimization to minimize respiratory induced implications for lung cancer proton therapy.
Radiobiology-Informatics-Consortium/RBO
Radiation Biology Ontology development
FotiouK/Monte-Carlo-Modelling-Photon-Paths-in-Water
Fundamental principles of Monte Carlo modelling and photon-matter interactions.
chezhia/FLUKA_CT
Contains a generic wide beam CT scanner Monte Carlo Source model for FLUKA along with scripts for Preprocessing, Postprocessing and Parallel simulation capability on a HPC
KaleyWhite/med-phys-spreadsheets
Spreadsheets from my work as Radiation Physicist Assistant at Cookeville Regional Medical Center
massimopinto/CalRadDosimetry
Automated analysis of calorimetric runs in radiation dosimetry
phantom-pose/phantom
Software for modeling and visualisation of phantom with an arbitrary posture
RMeades/Machine-learning-to-predict-environmental-dose-rates-from-a-radionuclide-therapy-service
A project with the aim of predicting environmental radiation doses arising from a radionuclide therapy service based on patient treatment types and numbers.
joaocaldeira/radioactive
Monte Carlo simulations of gamma ray interactions with matter. Summer 2016 project
KaleyWhite/dvh-points-investigation
Data analysis of how two TPSs determine which DVH points to export
wizrads/AVATAR
Audio-Visual Assisted Therapeutic Ambience in Radiotherapy (AVATAR)
59j-marias-n95/seminar_physics_radiations
Este repositorio servirá como una herramienta de documentación para mi progreso durante la realización del Seminario de Investigación en Física de Radiaciones el cual me acredita como Licenciado en Física.
krislins/radiationtransport
Radiation transport simulations with a human phantoms in OpenMC. Meshes are created in Cubit Coreform. The phantom used in this project is obtained from: https://www.icrp.org/publication.asp?id=ICRP%20Publication%20145
KyrollosIskandar/Alpha_Particles
Alpha Particles 2.0 is a non-relativistic Monte Carlo simulator of alpha particle beams. The program tries to answer a number of questions about an alpha particle beam's travel distance and how much absorbed dose it can deposit in human tissue. However, it is still to be improved. Please see Section 4.2 of my documentation for a detailed description of how the program can be improved.
maxhid/4DCT-Viewer
A 4DCT Viewer written in MATLAB
pcase13/ART-ROMS
Personal art project of Parker Case
RosaPetit/Review-Radiotherapy-
Medical physicists have long had an integral role in radiotherapy. This space is dedicated to a theoretical review of the principles topics of radiation physics amount other aspects related to this field
Dillybabu03/Radioactive-Decay-calculation-Using-python
A Python program to predict the radiation decay of isotopes with it's respective half-lives. Get user Input for isotope, initial activity and time, then give output the final activity or the desired time. Calculates in the user's time zone. Useful for nuclear engineering and medical applications.