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"By Casey Johnston | The standard model of particle physics dictates that the world is made up of sixteen types of particles divided into two types: fermions and bosons. The way these particles behave with each other shows that there are four possible kinds of interactions: electromagnetic, strong, weak, and gravitational."

Fermilab physicists are examining the production, properties, and decay of top quarks to gain the most complete picture of the particle possible. They compare their observations to predictions made in the Standard Model of physics and in theories that build on that model.

Geppetto.org is a web-based multi-algorithm, multi-scale simulation platform engineered to support the simulation of complex biological systems and their surrounding environment. A completely modular platform. Engineered together with scientists, Geppetto lets you integrate different simulators and models. Independent modules allow the user to read different standard modeling formats and to simulate different aspects of reality. An open-source revolution. Geppetto is entirely open source and engineers, scientists and developers are welcome to contribute to its development by adding functionality to existing modules or by creating new ones!

BrainBrowser is web-based, 3D visualization tool for neuroimaging. Using web-standard technologies, such as WebGL and HTML5, it allows for real time manipulation and analysis of 3D neuroimaging data whether it be precalculated maps, such as the MACACC data set (Mapping Anatomical Correlations Across Cerebral Cortex), or models provided by the user in MNI object format and data in one of the many currently supported formats (Minc, Nifti, object files, plain text).

Of the many ideas for new physics that can be tested at the Large Hadron Collider (LHC), supersymmetry is one of the most promising. The theory proposes that each fundamental fermion particle has a heavier bosonic superpartner (and vice versa for each fundamental boson) and by doing so, offers an extension of the standard model of particle physics that fixes many of its problems. None of the known particles appear to be superpartners, however, which leads to the daunting conclusion that if supersymmetry is correct, there are more than twice as many fundamental particles as we thought, but we have only been left with the lightest partners; that is, supersymmetry is broken.