Provided is a target plate for radioisotope production that has sufficient durability and sufficient heat resistance for use in radioisotope production and that is capable of reducing the extent of radioactivation. In a target plate (10) for radioisotope production, a support substrate (2), which supports a target (1), includes a graphite film(s). The thermal conductivity in a surface direction of the graphite film(s) is 1200 W/(m.Math.K) or greater, and the thickness of the graphite film(s) is 0.05 m or greater and 100 m or less.

Production assembly for an isotope production system. The production assembly includes a mounting platform including a receiving stage that faces an exterior of the mounting platform. The mounting platform includes a beam passage that opens to the receiving stage and a stage port that is positioned along the receiving stage. A particle beam is configured to project through the beam passage and through the receiving stage during operation of the isotope production system. The stage port is configured to provide or receive a fluid through the receiving stage during operation of the isotope production system. The production assembly also includes a target assembly having a production chamber configured to hold a target material for isotope production. The target assembly includes a mating side that is configured to removably engage the receiving stage during a mounting operation.

A flexible polymeric tube comprising: an outer tubular wall layer comprised of a thermoplastic propylene-based elastomer (PBE) material, and, an innermost tubular layer comprised of a thermoplastic ethylene-based olefinic material.

A beam accelerator system operable to produce a medical isotope, including an ion accelerator that generates an ion beam; a low-pressure chamber; an anode adjacent and fluidly connected to the low-pressure chamber; a plasma window adjacent and fluidly connected to the anode; and a cathode housing adjacent and fluidly connected to the plasma window. The plasma window has a plurality of plates, each plate having an aperture that is aligned with an aperture in one or more adjacent plates to form a plasma channel. One or more plates in the plurality of plates includes a unitary plate having an aperture therein, and one or more cooling channels entering the unitary plate at a first side of the unitary plate and exiting the unitary plate at a second side of the unitary plate. The one or more cooling channels run through a thickness of the unitary plate.

A system and method for producing radioisotopes such as molybdenum-99. The system comprises a first accelerator, a second accelerator, a first beamline, a second beamline, and a target. Using a pair of accelerators, beamlines are preferably fired at a target from opposite directions, thereby irradiating the target from both sides. The system can further comprise a target cooling system utilizing gaseous helium, a modular local target shielding comprised of boxes of either metal shot with liquid coolant or steel with concrete, and a hot cell for loading and unloading target disks.

Production assembly for an isotope production system. The production assembly includes a mounting platform including a receiving stage that faces an exterior of the mounting platform. The mounting platform includes a beam passage that opens to the receiving stage and a stage port that is positioned along the receiving stage. A particle beam is configured to project through the beam passage and through the receiving stage during operation of the isotope production system. The stage port is configured to provide or receive a fluid through the receiving stage during operation of the isotope production system. The production assembly also includes a target assembly having a production chamber configured to hold a target material for isotope production. The target assembly includes a mating side that is configured to removably engage the receiving stage during a mounting operation.

A beam accelerator system operable to produce a medical isotope, including an ion accelerator that generates a high-energy ion beam; a low-pressure chamber; an anode adjacent and fluidly connected to the low-pressure chamber; a plasma window adjacent and fluidly connected to the anode; and a cathode housing adjacent and fluidly connected to the plasma window. The plasma window has a plurality of plates, each plate having an aperture that is aligned with an aperture in one or more adjacent plate to form a plasma channel. One or more plate in the plurality of plates includes a unitary plate having an aperture therein, and one or more cooling channels entering the unitary plate at a first side of the unitary plate and exiting the unitary plate at a second side of the unitary plate. The one or more cooling channels run through a thickness of the unitary plate.

A circular accelerator (30) is a device that applies a static magnetic field that circulates a charged particle beam, a radio frequency acceleration electric field that is frequency-modulated and accelerates the charged particle beam, and a radio frequency disturbance electric field that extracts the charged particle beam, in which a circulation frequency of the charged particle beam circulating inside the circular accelerator (30) or kinetic energy of the charged particle beam is obtained after stopping the radio frequency acceleration electric field, and the radio frequency disturbance electric field is generated according to the obtained circulation frequency or kinetic energy. As a result, an accelerator and a particle therapy apparatus capable of improving beam utilization efficiency as compared with the related art are provided.

A system and method for producing radioisotopes such as molybdenum-99. The system comprises a first accelerator, a second accelerator, a first beamline, a second beamline, and a target. Using a pair of accelerators, beamlines are preferably fired at a target from opposite directions, thereby irradiating the target from both sides. The system can further comprise a target cooling system utilizing gaseous helium, a modular local target shielding comprised of boxes of either metal shot with liquid coolant or steel with concrete, and a hot cell for loading and unloading target disks.

A system and method for producing radioisotopes such as molybdenum-99. The system comprises a first accelerator, a second accelerator, a first beamline, a second beamline, and a target. Using a pair of accelerators, beamlines are preferably fired at a target from opposite directions, thereby irradiating the target from both sides. The system can further comprise a target cooling system utilizing gaseous helium, a modular local target shielding comprised of boxes of either metal shot with liquid coolant or steel with concrete, and a hot cell for loading and unloading target disks.