Software developed for the analysis of Neutron Reflectivity data.
Physically correct simulation of 2D-waves
UPDATED VERSION ON GITHUB! http://github.com/AtiX/wavesim This is a physically correct simulation of waves on a surface, for example water-waves. It can also be used to simulate Microwaves, and has features like the support for different refraction indices, different wave sources and custom borders. Therefore, experiments like the double-slit-experiment can be easily simulated.
Virtual Physics Laboratory - PhenoSim3D
PhenoSim3D is an application that presents computer simulations of real physical experiments, which could be used for demonstrating laws and effects in the field of Physics. Unlike real experiments, the simulations with PhenoSim3D could be done in a time convenient for the user; in addition, the greater data precision makes the phenomena analysis understandable, and due to the lack of external factors PhenoSim3D allows for repetition of the experiments without changes in the results. The application is suitable for use in class, during self-preparation and is accessible to students with special educational needs.
OpenSource radial stretching system for the scientific community
The rapid and efficient development of soft active materials requires readily available, compact testing equipment. We propose a desktop-sized, cost-efficient, and open source radial stretching system as an alternative to commercially available biaxial and uniaxial stretching devices. It allows for doubling the diameter of an elastomer membrane while measuring the applied force. Our development enables significant cost reduction (~300 €) and increase the availability of equibiaxial deformation measurements for scientific material analysis. Construction plans, source code, and electronic circuit diagrams are freely available under a creative commons license. RSS Website: http://www.somap.jku.at/rss/
Simulator for dynamical systems
Simulator for dynamical systems Performs the simulation of systems built in interface, allowing the extraction of its transfer function as well as the graphs of its behavior. Initial Development: Maycon Gasoto Oriented by: Rogério Bastos Quirino Depends: wxWidgets mathomatic odeint
An easy way to remerber NIM logic
AGBStarViewer is a best fit and plotting SW for AGB-star spectra.
AGBStarViewer is an astronomical SW which was developed as a part of my Master Thesis at the University of Vienna. It is designed to compare star spectra and obtain best fits of many hundreds spectra. Licence: GPLv2
Calculates multiple forces in various angles.
This force calculator is the same as the Java Force Calculator with the bugs removed.
Control Voltcraft Power Supply and Victor 86C Multimeter
ANNOUNCEMENT Project has moved to a proprietary website! http://www.instruman.it Updated source code available at https://instruman.codeplex.com/ This is an interface used to program and control Voltcraft DPPS-32-15 Power Supply, and to log data from Victor 86C Multimeter. It's an all-in-one solution to use the two instruments at the same time for Scientific, Research and Study purposes. Features avaible are the following: -Victor 86C USB HID connection protocol -86C data reading and logging -COM port selection -Continuous reading of Voltage and Current -Continuous logging of Voltage and Current in a Chart with the option to export data to csv file -Possibility to set logging rate from 50 ms -Turn ON and OFF instrument -Set Voltage and Current -Set a custom voltage loop to play and reiterate -Reiteration possible in three ways: for a fixed time, for a fixed number of cycles and until the STOP button is pressed
Convertit différentes unitées de mesures
Programmé en VB.NET, cet outil convertit des unitées de durée, d'énergie, de longueur, de poids, de superficie, de température, de vitesse ou de volume.
A personal coder keys applied to developement nuk friendly for
A simple (but growing) calculator for many electronic laws
This is a compilation of applications that have been made into one package, all of the programs included have been created by me, i have included a few simple law calculators at the moment, but will add more throughout updates. The current build includes: • Leyden Jar Capacitance Calculator • Resistor Colo(u)r Coder And more!
Calculates mutiple forces in various angles.
Designed by B.J Erasmus and written in java.
SourceForge test project.
An ideal gas simulator 2D developed in Java
This app interfaces a serial inclined plane and get its data
This app sets and gets the plane height and slope. You can see, store, load and plot plane test results to observe the rolling/sliding phenomen.
Calculates the voltage across a liquid junction between two solutions
Liquid junction potential calculator. It's a tool for scientists and engineers who have to do with electrochemistry and electrokinetics. When two solutions containing ions are put into contact, possibly through a porous diaphragm, a voltage develops across them. The calculation of the voltage is not trivial. The program is written in Java. Includes classes that can be included in other programs, together with graphical interfaces (also as an applet).
Data logging and visualization in 2D and 3D for STMs.
This is a project we - ten students, 16 to 18 years old, and one teacher - are currently working on in the so called "Physik-Projektkurs" at school in which we build and program our own scanning tunneling microscope. This software is designed for DAQ systems by BMCM (we use the USB-AD16F), but it should not be too difficult to adapt it to foreign systems.It currently supports resolutions up to 1024x1024, visualization in 2D and 3D using colors from predefined gradients, export to PNG, CSV, OBJ and more! Requires at least .Net Framework 4.0, DirectX 9, optional: BMCM driver for your DAQ system
Mini-research project on lattice gauge theories.
This is a project dealing with particle physics, in particular lattice gauge theories. Gauge theories are incredibly important in current theoretical research and allow for the seach of symmetries. The bulk of the project will consist on a LaTeX document that tries to explain the concepts at hand. Some MATLAB/Octave code might be used to illustrate some problems.
Nuclear collision secondary particle production cross sections.
This Python library contains the parametrization of the Nucleus-Nucleus pi-meson (including subthreshold pions) and the direct hard photon gamma-ray production cross sections channels for calculating the secondary gamma-ray and electron/positron spectra based on arXiv:1608.03348. Please, if you use this library DO NOT reference to this webpage, instead reference to arXiv:1608.03348, "Parametrization of the nucleus-nucleus gamma-ray production cross sections below 100 GeV/nucleon: Subthreshold pions and Hard photons" by Ervin Kafexhiu COMING SOON...
pp->gamma cross sections parametrization
This library contains the parametrization of pp->gamma cross section functions based on Phys.Rev. D90 (2014) 12, 123014 (astro-ph/1406.7369) work. The functions are written in Python, Fortran and Matlab. Please, if you use this library DO NOT reference to this webpage, instead reference to Phys.Rev. D90 (2014) 12, 123014 (astro-ph/1406.7369), "Parametrization of gamma-ray production cross-sections for pp interactions in a broad proton energy range from the kinematic threshold to PeV energies" by Ervin Kafexhiu, Felix Aharonian, Andrew M. Taylor, Gabriela S. Vila
A collection of m-files enhancing Matlab experience
The M-lab toolbox is a collection of m-files enhancing Matlab experience. It provides several useful tools for scientist, engineers and students. The tools range from very simple functions to very developped classes and high-level gestion of Matlab's interface. A transparent gestion of Matlab's path is provided in a project-oriented architecture.
Magnetic Drug Targeting (MDT) simulation and visualization in traversal and longtitudinal mode.
self-consistent schrodinger-poisson code for core-shell nanowires
PAMELA (Pseudospectral Analysis Method with Exchange & Local Approximations) is a self-contained suite of MATLAB codes that can calculate electronic energies, densities, wavefunctions, and band-bending diagrams within a self-consistent Schrödinger-Poisson formalism.
Analyse dynamical systems, plot its phase space and critical points.
Phase Space is born out of the need of a simple yet powerful open source tool to study dynamical systems. PhaseSpace allows you to plot the phase space of the dynamical system you are studying, its critical points and the curves of slope zero and infinite.It can also plot the solutions of the system and it's vector field. To use PhaseSpace you'll need to have Python installed along with Matplotlib and Numpy.