A method and a device for changing direction of movement of a beam of accelerated charged particles are based on the use of a curved channel which is made from a material that is able to be electrically charged, and formation of the same kind of charge on an inside surface of the channel wall as that of the particles. Maintenance of a condition that relates an energy and a charge of the particles to geometrical parameters of the channel is required, in particular, a radius R of curvature of a longitudinal axis thereof, and to electrical strength of the wall material. The beam can possibly be rotated through large angles without loss of intensity, significantly simplifying a design, and also reducing the mass and dimensions of all devices, particularly by obviating a need for magnets and supply voltage and control voltage sources for such devices.

The invention comprises a method and apparatus for treating a tumor of a patient with charged particles, comprising the step of developing a multi-modality treatment plan, the multi-modality treatment plan directing: (1) use of a first beam type to treat a first volume of the tumor, the first beam type a first mass per particle and (2) use of a second beam type to treat a second volume of the tumor, the second beam type comprising a second mass per particle, where the second mass per particle is at least ten percent different than the first mass per particle and the second volume differs from the first volume. The multi-modality treatment plan is optionally formed by selectively merging treatment plans using the respective particle types or is developed using properties of the multiple particle types.

The invention comprises a method and apparatus for treating a tumor of a patient with charged particles, comprising the step of developing a multi-modality treatment plan, the multi-modality treatment plan directing: (1) use of a first beam type to treat a first volume of the tumor, the first beam type a first mass per particle and (2) use of a second beam type to treat a second volume of the tumor, the second beam type comprising a second mass per particle, where the second mass per particle is at least ten percent different than the first mass per particle and the second volume differs from the first volume. The multi-modality treatment plan is optionally formed by selectively merging treatment plans using the respective particle types or is developed using properties of the multiple particle types.

The invention comprises a method and apparatus for treating a tumor of a patient with positively charged particles, comprising the steps of transporting the positively charged particles along a beam transport path passing sequentially from an accelerator, through a beam transport line, through a nozzle, and toward a position of the patient, the step of transporting further comprising the steps of: (1) terminating a first Bragg peak, of a first set of the positively charged particles, in a position of the tumor and (2) flash treating the tumor with a second Bragg peak, of a second set of the positively charged particles, the second Bragg peak terminating post-patient relative to the nozzle. Optionally the second set of particles are delivered at a rate exceeding one MHz. Optionally, particles in common are used to both treat the tumor and image the tumor.

The invention comprises a method and apparatus for treating a tumor of a patient with positively charged particles, comprising the steps of transporting the positively charged particles along a beam transport path passing sequentially from an accelerator, through a beam transport line, through a nozzle, and toward a position of the patient, the step of transporting further comprising the steps of: (1) terminating a first Bragg peak, of a first set of the positively charged particles, in a position of the tumor and (2) flash treating the tumor with a second Bragg peak, of a second set of the positively charged particles, the second Bragg peak terminating post-patient relative to the nozzle. Optionally the second set of particles are delivered at a rate exceeding one MHz. Optionally, particles in common are used to both treat the tumor and image the tumor.

The invention comprises a method and apparatus for aligning a charged particle beam path for treating a tumor of a patient, comprising: a cancer therapy system comprising the charged particle beam path sequentially passing: from an injector, through a synchrotron, along a beam transport line, and through a nozzle; a first two-dimensional detector configured to measure a beam state of positively charged particles; and an integrated intelligent system configured to classify the beam state into a set of beam shape factors, the integrated intelligent system configured to correct the beam shape through application of a condition-action rule: (1) adjusting a first voltage delivered to a first magnet positioned in the beam line prior to the first two-dimensional detector and (2) altering the beam shape through application of a second voltage to a second magnet position in the beam line adjacent to the first magnet.

The invention comprises a method and apparatus for aligning a charged particle beam path for treating a tumor of a patient, comprising: a cancer therapy system comprising the charged particle beam path sequentially passing: from an injector, through a synchrotron, along a beam transport line, and through a nozzle; a first two-dimensional detector configured to measure a beam state of positively charged particles; and an integrated intelligent system configured to classify the beam state into a set of beam shape factors, the integrated intelligent system configured to correct the beam shape through application of a condition-action rule: (1) adjusting a first voltage delivered to a first magnet positioned in the beam line prior to the first two-dimensional detector and (2) altering the beam shape through application of a second voltage to a second magnet position in the beam line adjacent to the first magnet.

The invention comprises a method and apparatus for treating a tumor of a patient with positively charged particles, comprising the steps of: (1) transporting the positively charged particles sequentially from an accelerator, through a beam transport line, through a nozzle, and toward a position of the tumor; (2) treating the tumor with first particles, of the positively charged particles, where at least fifty percent of the first particles pass through a patient position, from the nozzle, to a post-patient position; and (3) detecting a beam position of the first particles in the post-patient position with a detector. The flash treatment preferably delivers the first particles at a rate exceeding one MHz.

The invention comprises a method and apparatus for treating a tumor of a patient with positively charged particles, comprising the steps of: (1) transporting the positively charged particles sequentially from an accelerator, through a beam transport line, through a nozzle, and toward a position of the tumor; (2) treating the tumor with first particles, of the positively charged particles, where at least fifty percent of the first particles pass through a patient position, from the nozzle, to a post-patient position; and (3) detecting a beam position of the first particles in the post-patient position with a detector. The flash treatment preferably delivers the first particles at a rate exceeding one MHz.

According to one embodiment, an apparatus is disclosed for implementing a radio frequency quadrupole stark decelerator (RFQ-SD). The RFQ-SD includes two dielectric plates having substantially planar shapes. The first dielectric plate includes a first set of wires being attached onto a surface of the first dielectric plate and a second set of wires being attached onto the surface of the first dielectric plate. The second dielectric plate includes a third set of wires being attached onto a surface of the second dielectric plate and a fourth set of wires being attached onto the surface of the second dielectric plate. The first dielectric plate and the second dielectric plate are spaced apart such that every four wires, two wires from the first dielectric plate and two wires from the second dielectric plate, form a quadrupole electric field channel for guiding neutral polar molecules.