In a modified procedure, which may be called radiation induced thermally activated polarization (RITAP), the dielectric body is not given an initial bias polarization, but rather is exposed to radiation without any such initial polarization. After such exposure, the electrodes on the dielectric body are connected into a series circuit which includes a current measuring instrument and a battery or some other source of a uni-directional voltage. The electrical current in such circuit is then observed and measured as the energy level of the dielectric body is raised, preferably by heating the body. If the dielectric body has been exposed to radiation, a polarization current peak is observed at a characteristic temperature. The magnitude of the peak is a measure of the total radiation dosage. The voltage source may then be removed from the circuit so that the current measuring instrument is connected directly across the electrodes. The dielectric body is then heated to a higher temperature. At one or more characteristic temperatures, one or more depolarization current peaks are observed. The direction of the depolarization currents is opposite from the direction of the polarization current. The magnitude of the depolarization current peaks is also a measure of the total radiation dosage.

Claim 1:

A method of measuring radiation,

• comprising the steps of providing a dielectric body made of a dielectric material selected from a group consisting of alkaline earth fluorides, other alkaline earth halides, alkali metal fluorides, other alkali metal halides, alkaline earth oxide ceramics, and alkaline earth phosphate minerals,

• exposing said dielectric body to the radiation to be measured,

• providing an electrical current measuring circuit between a pair of electrodes on opposite sides of said body,

• and producing a depolarization current in said measuring circuit by raising the energy level of said dielectric body,

• said depolarization current being a measure of the radiation exposure.