Competent experts provide a summary of the enormous progress achieved in the development of new detection methods of charged and neutral particles, and photons. These achievements were initiated by the advent of new particle colliders, e.g., the LHC at CERN, but also by non-accelerator experiments. Part 1 of Subvolume B reviews the interaction of particle radiation with matter, and describes particle detectors, like, e.g., scintillation, gaseous, solid state, time-of-flight, Cerenkov, transition radiation, and neutrino detectors. Calorimetry and nuclear emulsions are considered as well. Finally, signal processing for particle detectors, data treatment and analysis methods (including detector simulation, high-level data selection, pattern recognition, distributed computing, and statistical issues) are addressed.

Contributions by: Leslie Camilleri, Antonio Ereditato, Christian Fabjan, Daniel Fournier, Rudolf Frühwirth, Hans Jürgen Hilke, Paul Lecoq, Wesley H. Smith, Are Strandlie, Hans Bichsel, Gerhard Lutz, Olav Ullaland, Veljko Radeka, John Apostolakis, Manuel Delfino, Louis Lyons, Roger Forty, Kimio Niwa, Giovanni Lellis