The elevated and room temperature annealing behavior of radiation damage in JFET-input operational amplifiers(op-amps)were investigated.High-and low-dose-rate irradiation results show that one of the JFET-input op-amps studied in this paper exhibits enhanced low-dose-rate sensitivity and the other shows time-dependent ef-fect.The offset voltage of both op-amps increases during long-term annealing at room temperature.However,the offset voltage decreases at elevated temperature.The dramatic difference in annealing behavior at room and elevated temperatures indicates the migration behavior of radiation-induced species at elevated and room temperatures.This provides useful information to understand the degradation and annealing mechanisms in JFET-input op-amps under total ionizing radiation.Moreover,the annealing of oxide trapped charges should be taken into consideration,when using elevated temperature methods to evaluate low-dose-rate damage. The elevated and room temperature annealing behavior of radiation damage in JFET-input operational amplifiers (op-amps) were investigated. High-and low-dose-rate irradiation results show that one of the JFET-input op-amps studied in this paper exhibit enhanced low-dose-rate sensitivity and the other shows time-dependent ef-fect. The offset voltage of both op-amps increases during long-term annealing at room temperature. However, the offset voltage decreases at elevated temperature. The dramatic difference in annealing behavior at room and elevated temperatures indicates the migration behavior of radiation-induced species at elevated and room temperatures. this provides useful information to understand the degradation and annealing mechanisms in JFET-input op-amps under total ionizing radiation. More over, the annealing of oxide trapped charges should be taken into consideration, when using elevated temperature methods to evaluate low-dose-rate damage.