Optimization of the HgI2 Crystal Preparation for Application as a Radiation Semiconductor Detector

Abstract: The effect of HgI 2 crystal encapsulation using different polymer resins, with the intent of avoiding the oxidation of the crystal surface, was evaluated in this work. The crystal was purified and grown by the physical vapor transport (PVT) technique modified. Systematic measurements were carried out for evaluating the stoichiometry, structure orientation, surface morphology and impurity of the crystal grown. The purer region of the crystal grown was selected to be prepared as a radiation detector, applying wa… Show more

“…The high density and high atomic number elements of mercury iodide HgI are (7.7 g/cm 3 ) and (Z Hg = 80 and Z I = 53). Many important properties make mercury iodide (HgI 2 ) technologically attractive as a room temperature radiation detector [20].…”

Analysis of the Radiation Attenuation Parameters of Cu2HgI4, Ag2HgI4, and (Cu/Ag/Hg I) Semiconductor Compounds

“…The high density and high atomic number elements of mercury iodide HgI are (7.7 g/cm 3 ) and (Z Hg = 80 and Z I = 53). Many important properties make mercury iodide (HgI 2 ) technologically attractive as a room temperature radiation detector [20].…”

Analysis of the Radiation Attenuation Parameters of Cu2HgI4, Ag2HgI4, and (Cu/Ag/Hg I) Semiconductor Compounds