84 results about "Heavy ion beam" patented technology

The invention relates to the fields of radioactive nuclear beam physics, heavy ion beam therapy of tumors, heavy ion irradiation materials and heavy ion irradiation breeding. A position-sensitive detector for high-energy heavy ion beam diagnosis, its main feature is that a beam probe is provided in a gas-sealed cavity, and the beam probe is fixedly connected to the fixed bracket of the port sealing flange assembly; The gas-tight chamber includes an incident window on one side of the gas box, and an exit window on the other side; the beam probe consists of two sets of beam measurement units, and each set of beam measurement units consists of a high-voltage pole, an insulating backing plate The port sealing flange assembly is composed of a fixed bracket and a port sealing flange; the multi-channel signal lead-out adapter board includes a multi-channel signal lead-out board and a multi-channel signal adapter board; the multi-channel signal adapter board One end is provided with a contact end inserted into the sealing port of the sealing flange to connect with the signal output end of the multi-channel signal lead-out board, and the other end is provided with a multi-core connector which is the signal output port of the beamline position sensitive detector, and the multi-channel signal lead-out board The signal input end of the sensor is connected to the signal pole of the beam probe.

The invention relates to a device and a method for demarcating and calibrating a dose monitoring detector in heavy ion beam cancer treatment. The structure of the device is characterized in that a collimator, the dose monitoring detector, a mini ridge-shaped filter, a water tank and a standard ionization chamber are arranged on a beam flux axis in sequence. The standard ionization chamber is arranged inside the water tank. The depth position of an irradiation beam mini spread-out Bragg peak in water is obtained by measuring absorbed dose of the standard ionization chamber at different depth in aqueous medium. At the depth position, the dose monitoring detector is demarcated and calibrated by the standard ionization chamber so as to obtain demarcating and calibrating factors of the measurement of the dose monitoring detector for the mini spread-out Bragg peak cancer treatment beam with a Gauss arrangement. With the demarcating and calibrating factors, the entire process of three-dimensional conformal irradiation therapy with uniform physical absorption dose or uniform biological effective dose in a tumor target volume can be conveniently controlled, the requirements of the treatment of different clinical cases in practical clinical treatment are satisfied, and the treatment efficiency of a treatment device is improved.

The invention discloses a method for preparing graphene nanoholes supported by micropores, and belongs to the fields of heavy ion beam application and film processing. A porous graphene composite material with microporous support includes a single-layer graphene on a polymeric film, and nano-scale holes on the graphene coincide with and communicate with tapered holes on the polymeric film. The invention adopts high-energy heavy ions to irradiate the graphene / polymer film composite structure, utilizes the radiation damage effect of heavy ions to form holes with a diameter of several nanometers on the graphene, and simultaneously produces columnar damage regions in the polymer film. Then, the irradiated area of ​​the polymer is etched by chemical etching to form tapered nanopores. Since the positions of the graphene holes and the tapered holes on the polymer coincide and communicate, graphene with microporous supports can be obtained. Nanopores, making graphene nanopores have broad application prospects in ion rectification, ion filtration and screening, and biomolecular detection.