Many explanation such as noise, grain density, emulsions, multiplication factor, technique, nuclear reaction, techniques, and solid state detectors are explained in the tutorial. The tutorial contains discussion around sample, track detectors, energy, dead time, measurement techniques, detectors, and nuclear.
Inside the tutorial you can read explanation around counting systems, measurement, electrodes, range, nuclear particles, detection, and measuring circuitry. These are grabbed from this tutorial:
An ionizing particle or photon will produce a collectable charge )Q in the detector )Q = 1.60 × 10-19 Eloss 0 w!1 (8.2) where Eloss is the total energy lost by the particle to the detector, 0 is the collection efficiency, w is the energy required for the formation of a pair of charge carriers in the detector medium, while the constant is the charge (Coulomb) of a single charge carrier (the pairs must be regarded as singles because they move in opposite direction in the electric field due to their opposite charges). This detection efficiency, which was discussed briefly in §6.2, is the product of all the factors which influence the measured count rate and may be expressed as R = RdetRresRgeomRbackRselfRabs where Rdet Rres Rgeom Rback Rself Rabs (8.16) = counting efficiency of detector, = resolving time correction (see §8.3), = geometry factor (see §6.2), = backscattering factor, = self-absorption factor (Rsample = RbackRself ), and = absorption factor (see §6.2). If our measu
Also, the tutorial presents discussion things like radioactive, detection, neutron detector, nuclear radiation, detector, voltage, and ionizing radiation.