Effect of gamma irradiation on electrical properties of F16copc thin films Pradhan Krishna Gopal1, Dr Bansal Prince2 1(M.Sc), Ph D Scholar, Deptt. Of Physics, CMJ University, Jorabat, Meghalaya 2(M.Sc, Ph D), Supervisor CMJ University, Jorabat, Meghalaya Online published on 1 September, 2023. Abstract Gamma radiation and the F16CoPc were the subjects of this essay. How radiation from Gamma rays affects their electrical characteristics. Researchers have developed gamma radiation detectors based on the electrical characteristics of thermally evaporated thin films of phthalocyanine. It is possible to deposit F16CoPc thin films using a thermal evaporation process in a high vacuum environment at ambient temperature. Studying the effect of film thickness and substrate temperature on the activation energy is done. The electrical characteristics of F16CoPc thin films produced at room temperature are examined after exposure to gamma radiation. Radiation dosage is not to be confused with the unit of radioactive activity, which measures the quantity of energy deposited in materials and/or the biological consequences of radiation (Becquerel Bq). Commercially accessible F16CoPc (98 percent pure) powders are the raw ingredients required to make thin films. Dosimeters may be made using organic semiconductors that are particularly sensitive to high-energy radiation, according to the results. F16CoPc thin films produced at room temperature and subjected to gamma radiation are studied electrically. In the Ln vs 1000/T plots of F16CoPc thin films, the appearance of many linear portions supports the presence of trap levels. This information is gleaned from the linear sections' slopes, which are then used to calculate activation energies. The higher temperature activation energy E1 is determined as a result of inherent majority carriers. Because of impurity state extrinsic conduction, the activation energies E2 and E3 at the lower temperature zones are dependent on these impurity states. Top Keywords Gamma radiation, Electrical properties, F16COPC, Dose, Energy. Top |