A method that includes accelerating ions toward a lattice of carbon fibers and capturing the ions in the lattice of carbon fibers.

An interface module to connect a collimator to an X-ray generator, includes: a base plate, which forms a support area for an X-ray tube unit flange of the X-ray generator; an adjustment plate, which is rotatably connected to the base plate; and at least one swivel element movably connected to the base plate and adjustment plate such that, upon rotation of the adjustment plate, the at least one swivel element pivots between a clamping position and an open position.

An ion implanter includes: a plurality of devices which are disposed along a beamline along which an ion beam is transported; a plurality of neutron ray measuring instruments which are disposed at a plurality of positions in the vicinity of the beamline and measure a neutron ray from a neutron ray source which is generated in the beamline due to collision of a high-energy ion beam; and a control device which monitors at least one of the plurality of devices, based on a plurality of measurement values measured by the plurality of neutron ray measuring instruments.

The purpose of the present invention is to provide: a radiation shielding liquid filter having a radiation shielding effect, a simpler and lighter structure, and various mounting locations so as to protect a surgical patient from exposure to radiation emitted during X-ray imaging using a C-arm, which is a mobile X-ray imaging device, and a stationary X-ray imaging device used during X-ray imaging in a hospital; and an X-ray imaging device provided with the same.

The purpose of the present invention is to provide: a radiation shielding liquid filter having a radiation shielding effect, a simpler and lighter structure, and various mounting locations so as to protect a surgical patient from exposure to radiation emitted during X-ray imaging using a C-arm, which is a mobile X-ray imaging device, and a stationary X-ray imaging device used during X-ray imaging in a hospital; and an X-ray imaging device provided with the same.

Inspection systems employing radiation filters with different attenuation characteristics to determine specimen irregularities, and related methods are disclosed. An inspection system includes a radiation emitter configured to emit a radiation beam along a radiation trajectory. Some of the radiation may be reflected by the specimen as backscatter and received by at least one radiation detector of the inspection system along the radiation trajectory. Irregularities and various materials of the specimen may produce backscatter radiation at different energies and/or scatter angles which may be identified by employing radiation filters having different attenuation characteristics. By employing these filters in communication with the radiation emitter and the radiation detector, the backscatter radiation passed through the filters may be measured and integrated at different positions of the radiation beam to produce a composite image of the specimen. In this manner, irregularities and associated materials within the specimen may be more easily identified.

Inspection systems employing radiation filters with different attenuation characteristics to determine specimen irregularities, and related methods are disclosed. An inspection system includes a radiation emitter configured to emit a radiation beam along a radiation trajectory. Some of the radiation may be reflected by the specimen as backscatter and received by at least one radiation detector of the inspection system along the radiation trajectory. Irregularities and various materials of the specimen may produce backscatter radiation at different energies and/or scatter angles which may be identified by employing radiation filters having different attenuation characteristics. By employing these filters in communication with the radiation emitter and the radiation detector, the backscatter radiation passed through the filters may be measured and integrated at different positions of the radiation beam to produce a composite image of the specimen. In this manner, irregularities and associated materials within the specimen may be more easily identified.

A method for beam therapy is provided. The method includes receiving first data indicating a plurality of target volumes within a target region inside a subject for particle beam therapy relative to a particle beam outlet on a gantry for directing a particle beam from a particle beam source. The method further includes moving automatically, one or more energy modulator components to reduce an energy of the particle beam and deliver the particle beam to the target region such that a Bragg Peak is delivered to at least one target volume of the plurality of target volumes. The method further includes repeating the moving automatically as the particle beam source rotates with the gantry around the subject, without changing the energy of the particle beam at the particle beam outlet, until every target volume is subjected to a Bragg Peak.

An ion implantation device (20) comprising an energy filter (25), wherein the energy filter (25) has a thermal energy dissipation surface area, wherein the energy filter (25) comprises a membrane with a first surface and a second surface disposed opposite to the first surface, the first surface being a structured surface.

An ion implantation device (20) is provided comprising an energy filter (25) with a structured membrane, wherein the energy filter (25) is heated by absorbed energy from the ion beam, and at least one additional heating element (50a-d, 55a-d, 60, 70) for heating the energy filter (25).