6533b7d4fe1ef96bd1263186
RESEARCH PRODUCT
Spatial distribution of air kerma rate and impact of accelerating voltage on the quality of an ultra soft X-ray beam generated by a cold cathode tube in air
Michel FrommA. BelafritesN. OunoughiN. OunoughiChristophe Mavonsubject
PhysicsRadiationbusiness.industryX-ray tubeAcceleration voltageCathodelaw.inventionAnodeKermaOpticslawIonization chamberCold cathodeAtomic physicsbusinessInstrumentationBeam (structure)description
Abstract Ultrasoft X-ray characteristic aluminum K alpha line (Al Kα with energy of 1.5 keV) is used in radiobiological experiments to study the effect of radiation on biological matter. A simple method to generate a continuous beam of those X-ray radiations is to bombarding an aluminum target with accelerated electrons using high voltage (HV). In this work, by varying the HV we study the characteristics of a photon beam generated by means of a cold cathode transmission X-ray tube. The anode is a thin (16 μm) aluminum foil supported by a copper grid. The spatial distribution of air kerma is measured using gafchromic films of HD-810 calibrated with a parallel plate free-air ionization chamber. We show that HV strongly modifies the energetic spectrum and air kerma rate as well as its uniformity and intensity in air.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-09-01 | Radiation Measurements |