Geometric techniques have played an important role in the seventies, for the study of the spectrum of many-body Schrödinger operators. In this talk I will present a formalism which also allows to study nonlinear systems.
Jets produced in collisions at the CERN LHC can be reconstructed using the charged-particle tracks measured in the ATLAS Inner Detector. Jets are produced copiously at the LHC, and can be used to study the details of the strong interaction, the hot dense medium produced in heavy ion collisions, and new fundamental particles.
Abstract: "Strongly coupled models at the TeV scale often predict one or more Z' bosons which have appreciable branching ratios into EW bosons. These Z's are usually believed to have multi-TeV mass due to electroweak precision constraints, placing them on the edge of the LHC discovery reach.
Abstract: Review of rigorous results on thermostats. Families of exact formal solutions of the BBGKY hierarchy for hard sphere systems with free boundary conditions at collisions and Fourier equation emergence, to first order in the temperature difference, after boundary conditions are imposed.
MINOS is a long-baseline neutrino oscillation experiment with two detectors 734 km apart exposed to the Fermilab NuMI neutrino beam. By comparing the energy spectrum and beam composition at the two sites neutrino oscillations at L/E~500 km/GeV can be measured with precision.
Title: Strongly correlated photons in coupled cavity/circuit QED systems
Motivated by the recent success of engineering strong light-matter interaction in various cavity/circuit QED architectures, there has been a surge of interest in realizing condensed matter-like systems with photonic systems.