Patent Number: 
Section: claims

1. A method for producing molybdenum trioxide 99 (Mo-99.O3) and technetium oxide 99m (Tc-99m2.O7), comprising:emitting an electron beam accelerated by an electron linear accelerator to a molybdenum trioxide 100 (Mo-100.O3) powder sample;supplying a temperature-regulated gas to the molybdenum trioxide 100 powder sample during an irradiation period where the electron beam is emitted to the molybdenum trioxide 100 powder sample; andvibrating the molybdenum trioxide 100 powder sample during the irradiation period. 2. The method according to claim 1, further comprising:separating and purifying the technetium oxide 99m from both the molybdenum trioxide 99 and the molybdenum trioxide 100. 3. The method according to claim 1, whereinthe gas supplied to the molybdenum trioxide 100 powder sample during the irradiation period is a gas mixture of oxygen gas and a noble gas. 4. The method according to claim 1, further comprising:measuring a temperature of the molybdenum trioxide 100 Powder sample during the irradiation period;regulating a temperature of the gas so that the temperature of the molybdenum trioxide 100 powder sample is adjusted to be greater than or equal to a boiling point of the technetium oxide 99m and less than or equal to a melting point of the molybdenum trioxide 100 during the irradiation period. 5. The method according to claim 1, whereinthe vibrating is performed by an ultrasonic vibration device. 6. The method according to claim 1, whereinthe vibrating is performed by stirring with a gas flow. 7. The method according to claim 2, whereina first bellows-type pipe supplies the temperature-regulated gas to the molybdenum trioxide 100 powder sample, and a second bellows-type pipe supplies the molybdenum trioxide 99 and the technetium oxide 99m to the separation/purification unit for a separation/purification unit for separating and purifying the technetium oxide 99m. 8. The method according to claim 1, whereina bellows-type container contains the molybdenum trioxide 100 powder sample during the irradiation period. 9. The method according to claim 1, whereina first pipe supplies the temperature-regulated gas to the molybdenum trioxide 100 powder sample, and a second pipe supplies the molybdenum trioxide 99 and the technetium oxide 99m to a separation/purification unit for separating and purifying the technetium oxide 99m, anda mesh filter having a mesh opening size smaller than a particle size of the molybdenum trioxide 100 powder sample, and which permits passage of the temperature-regulated gas is located between the first pipe and the molybdenum trioxide 100 powder sample and is located in the second pipe. 10. The method according to claim 1, whereina thickness of the molybdenum trioxide 100 powder sample along an emission direction of the electron beam is greater than or equal to a beam path length of the electron beam in the molybdenum trioxide 100 powder sample.