Loops, Trees and New Physics at the LHC
- Lance Dixon, SLAC National Accelerator Laboratory
Thursday, November 8, 4:10 PM - Physics and Astronomy Colloquium
Biomedical & Physical Sciences Bldg., Rm. 1415
The Large Hadron Collider is now exploring the energy frontier of particle physics, searching for new particles and interactions. For the LHC to uncover many types of new physics, the "old physics" produced by the Standard Model must be understood very well. For decades the central theoretical tool for this job was the Feynman diagram. However, Feynman diagrams are just too slow, even on fast computers, to allow adequate precision for complicated events with many jets of hadrons in the final state. Such events are produced copiously at the LHC, and constitute formidable backgrounds to many searches for new physics. Over the past few years, alternative methods to Feynman diagrams have come to fruition. The new "on-shell" methods are based on the old principle of unitarity. They can be much more efficient because they exploit the underlying simplicity of scattering amplitudes, and recycle lower-loop information. Farther afield, the new methods have led to intriguing new results in quantum gravity. I'll explain how and why these methods work, and present recent state-of-the-art results obtained with them.