29. Experimental methods and instrumentation for elementary-particle and
nuclear physics
29.17.+w Electrostatic, collective, and linear accelerators
29.20.-c Cyclic accelerators and storage rings
29.20.Dh Storage rings
29.20.Fj Betatrons
29.20.Hm Cyclotrons
29.20.Lq Synchrotrons
29.20.Mr Other cyclic accelerators
29.25.-t Particle sources and targets
29.25.Bx Electron sources
29.25.Dz Neutron sources
29.25.Lg Ion sources: polarized
29.25.Ni Ion sources: positive and negative
29.25.Pj Polarized and other targets
29.25.Rm Sources of radioactive nuclei
29.27.-a Beams in particle accelerators (for low energy charged-particle beams,
see 41.75)
29.27.Ac Beam injection and extraction
29.27.Bd Beam dynamics; collective effects and instabilities
29.27.Eg Beam handling; beam transport
29.27.Fh Beam characteristics
29.27.Hj Polarized beams
29.30.-h Spectrometers and spectroscopic techniques
29.30.Aj Charged-particle spectrometers: electric and magnetic
29.30.Dn Electron spectroscopy
29.30.Ep Charged-particle spectroscopy
29.30.Hs Neutron spectroscopy
29.30.Kv X- and gamma-ray spectroscopy
29.30.Lw Nuclear orientation devices
29.40.-n Radiation detectors (for mass spectrometers, see 07.75)
29.40.Cs Gas-filled counters: ionization chambers, proportional, and avalanche
counters
29.40.Gx Tracking and position-sensitive detectors
29.40.Ka Cherenkov detectors
29.40.Mc Scintillation detectors
29.40.Rg Nuclear emulsions
29.40.Vj Calorimeters
29.40.Wk Solid-state detectors
29.40.Ym Other detectors
29.50.+v Computer interfaces (for electronic circuits, see 84.30)
29.85.+c Computer data analysis
29.90.+r Other topics in elementary-particle and nuclear physics experimental
methods and instrumentation