Abstract:
In this work photosensors based on CaSe specially undoped and doped with Cu (0.05% at. – 0.50%at.) are characterized at normal temperature using the electric photoconductivity spectrums. Photoresistors based on monocrystallineGaSe fi lms are photosensible in the energy interval from 1.8eV to 5.2eV. Polarization sensibility of the GaSe, GaSe:Cu(0.5%at) photoresistors was specially investigated at every circularly polarized wave length. Are raised the curves ofrelaxation of the photocurrent through the GaSe and GaSe with 0.1%at of Cu samples with light impulses with a duration
of ~1.2·10-6 s. In the absence of X radiation characteristics I-U for roentgen resistors of GaSe<Cu> are virtually linear.At the growth of the X radiation dose (radiation: Cukα : λ =1.514 Å, I=1.6 mA, U=45kV ) in the GaSe<Cu (0.05%at.)>,characteristics I-U are sublinear which indicates the growth of the concentration of the defects in GaSe crystals togetherwith the growth of the radiation dose. In this work is demonstrated the possibility of elaboration of the roentgen resistorsand spectral and polarization based on layered GaSe photoresistors.