These chambers have a cylindrical body made of aluminium or plastic a few millimetres thick. This is to stop moisture building up in the interior of the chamber, which would otherwise be introduced by the "pump" effect of changing atmospheric air pressure. These chambers are normally cylindrical and operate at atmospheric pressure, but to prevent ingress of moisture a filter containing a desiccant is installed in the vent line. Other examples are applications where the ions are created outside the chamber but are carried in by a forced flow of air or gas. The domestic smoke detector is a good example of this, where a natural flow of air through the chamber is necessary so that smoke particles can be detected by the change in ion current. This is a chamber freely open to atmosphere, where the fill gas is ambient air. The following chamber types are commonly used. This is in distinction to the Geiger–Müller tube or the proportional counter whereby secondary electrons, and ultimately multiple avalanches, greatly amplify the original ion-current charge. Referring to the accompanying ion-pair collection graph, it can be seen that in the ion chamber operating region the charge of a collected ion pair is effectively constant over a range of applied voltage, as due to its relatively low electric field strength the ion chamber does not have any multiplication effect. Because the number of ion pairs produced is proportional to the energy of the incident radiation, this continuously measured current is proportional to the dose rate (energy deposited per unit time) in the ionization chamber. This mode of operation is referred to as "current" mode, meaning that the output signal is a continuous current, and not a pulse output as in the cases of the Geiger–Müller tube or the proportional counter. The electric field is sufficiently strong to enable the device to work continuously by mopping up all the ion pairs, preventing the recombination of ion pairs which would diminish the ion current. This continual generation of charge produces an ionization current, which is a measure of the total ionizing dose entering the chamber. Each ion pair created deposits or removes a small electric charge to or from an electrode, such that the accumulated charge is proportional to the number of ion pairs created, and hence the radiation dose. The electrometer must be capable of measuring the very small output current which is in the region of femtoamperes to picoamperes, depending on the chamber design, radiation dose and applied voltage. This generates an ionization current which is measured by an electrometer circuit. When gas atoms or molecules between the electrodes are ionized by incident ionizing radiation, ion-pairs are created and the resultant positive ions and dissociated electrons move to the electrodes of the opposite polarity under the influence of the electric field. The electrodes may be in the form of parallel plates (Parallel Plate Ionization Chambers: PPIC), or a cylinder arrangement with a coaxially located internal anode wire.Ī voltage potential is applied between the electrodes to create an electric field in the fill gas. It consists of a gas-filled chamber with two electrodes known as anode and cathode. Ion chambers use the lowest voltage plateau.Ī gas ionization chamber measures the charge from the number of ion pairs created within a gas caused by incident radiation. Plot of ion current against voltage for a conceptual wire cylinder gaseous radiation detector. They are widely used in the nuclear power industry, research labs, radiography, radiobiology, and environmental monitoring. Ion chambers have a good uniform response to radiation over a wide range of energies and are the preferred means of measuring high levels of gamma radiation. Gaseous ionization detectors include ionization chambers and devices that use gas multiplication, namely the proportional counter and the Geiger counter. It only uses the discrete charges created by each interaction between the incident radiation and the gas. Conventionally, the term "ionization chamber" refers exclusively to those detectors which collect all the charges created by direct ionization within the gas through the application of an electric field. The ionization chamber is the simplest type of gas-filled radiation detector, and is widely used for the detection and measurement of certain types of ionizing radiation, including X-rays, gamma rays, and beta particles.
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