Detection, dosimetry and microdosimetry using high energy 12C beams

Abstract

Samples of polyallyldiglycolcarbonate (PADC) track etch detectors (TED) were exposed to high energy 12C nuclei at the particle beam of the Dubna synchrophasotron. The energy of 12C nuclei varied between 0.1 and 1.5 GeV per amu. At the low studied energies the linear energy transfer (LET) of these nuclei is higher than the detector threshold value. Then, the primary particle tracks are directly etched in the detector surface. The detection efficiency approaches to 100% at perpendicular incidence. Their LET has been established by means of standard authomatized procedure recently developed. The LET values found here are in good agreement with theoretical ones. At 1.5 GeV per amu (LET ∼ 8.4 KeV μm −1) the secondary particle tracks were evaluated in all the exposed detectors. The energy deposited by these particles was compared to the energy deposited through primary ionization losses. It was found out that its contribution to the total dose is relatively lower than for protons of comparable energies. In some of these samples even the tracks of the primary nuclei were observed. It follows that the detection threshold of the developed LET spectrometer should be below 10 keV μm −1.