Patent Number: 
Section: claims

1. A beam shaping assembly for neutron capture therapy, comprising:a neutron generating device housed within the beam shaping assembly for generating neutrons;a beam outlet, wherein the neutrons form a neutron beam in a direction from the neutron generating device to the beam outlet, and the neutron beam defines a beam axis;a moderator adjacent to the neutron generating device for moderating fast neutrons in the neutron beam to epithermal neutrons; anda disturbing unit being a cylinder, wherein the radius of the bottom surface of the cylinder is 5 to 6 cm, and the height of the cylinder is 3 to 5 cm;wherein the beam shaping assembly produces gamma rays in a process of adjusting an energy spectrum of the neutron beam, the disturbing unit is located between the moderator and the beam outlet for allowing the neutron beam to pass through the disturbing unit and reducing contents of the gamma rays in the neutron beam passing through the beam outlet. 2. The beam shaping assembly for neutron capture therapy according to claim 1, wherein a material of the disturbing unit is selected from the group consisting of rhenium, hafnium, lutetium, lead, cerium, zinc, bismuth, terbium, indium, antimony, gallium, lanthanum, tellurium, tin, selenium, yttrium, aluminum, strontium, barium, silicon, zirconium, rubidium, calcium, sulfur, iron, carbon, beryllium, magnesium, phosphorus, chromium, lithium, sodium, nickel element and combinations thereof. 3. The beam shaping assembly for neutron capture therapy according to claim 2, wherein the disturbing unit consists of any single element of rhenium, hafnium, lutetium, lead, cerium, zinc, bismuth, terbium, indium or antimony, and a proportion of gamma rays in the neutron beam is reduced by at least 30%. 4. The beam shaping assembly for neutron capture therapy according to claim 2, wherein in a phantom beam quality of the neutron beam passing through the disturbing unit, an advantage depth is ≥10.69 cm. 5. The beam shaping assembly for neutron capture therapy according to claim 1, wherein an internal structure of the disturbing unit is a dense structure or a porous structure. 6. The beam shaping assembly for neutron capture therapy according to claim 1, wherein the beam shaping assembly further includes a reflector surrounding the moderator and the disturbing unit for reflecting neutrons deviating from the neutron beam back to the neutron beam to enhance an intensity of the neutron beam, and wherein the reflector is made of a material having a strong neutron reflection ability. 7. The beam shaping assembly for neutron capture therapy according to claim 6, wherein when the neutron beam containing the gamma rays passes through the disturbing unit, the disturbing unit reduces the contents of the gamma rays in the neutron beam by absorbing the gamma rays through photoelectric effect, scattering the gamma rays through Compton effect, or converting the gamma rays into positive and negative electron pairs through electron pair effect, respectively, and the gamma rays scattered by the disturbing unit are further attenuated by reabsorption or reflection after encountering the reflector. 8. The beam shaping assembly for neutron capture therapy according to claim 1, wherein the cylinder defines an axis and the axis of the cylinder coincides or is parallel to the beam axis. 9. The beam shaping assembly for neutron capture therapy according to claim 1, wherein an energy range of the fast neutrons is higher than 40 keV and an energy range of the epithermal neutrons is between 0.5 eV and 40 keV. 10. A beam shaping assembly for neutron capture therapy, comprising:a neutron generating device housed within the beam shaping assembly for generating neutrons;a beam outlet, wherein the neutrons form a neutron beam in a direction from the neutron generating device to the beam outlet, and the neutron beam defines a beam axis;a moderator adjacent to the neutron generating device for moderating fast neutrons in the neutron beam to epithermal neutrons;a disturbing unit, wherein an internal structure of the disturbing unit is a porous structure; anda reflector surrounding the moderator and the disturbing unit for reflecting neutrons deviating from the neutron beam back to the neutron beam to enhance the neutron beam intensity;wherein the beam shaping assembly produces gamma rays in a process of adjusting an energy spectrum of the neutron beam, the disturbing unit is located after the neutron generating device for allowing the neutron beam to pass through the disturbing unit and reducing contents of the gamma rays in the neutron beam passing through the beam outlet. 11. The beam shaping assembly for neutron capture therapy according to claim 10, wherein a material of the disturbing unit is selected from the group consisting of rhenium, hafnium, lutetium, lead, cerium, zinc, bismuth, terbium, indium, antimony, gallium, lanthanum, tellurium, tin, selenium, yttrium, aluminum, strontium, barium, silicon, zirconium, rubidium, calcium, sulfur, iron, carbon, beryllium, magnesium, phosphorus, chromium, lithium, sodium, nickel element and combinations thereof. 12. The beam shaping assembly for neutron capture therapy according to claim 10, wherein when the neutron beam containing the gamma rays passes through the disturbing unit, the disturbing unit reduces the contents of the gamma rays in the neutron beam by absorbing the gamma rays through photoelectric effect, scattering the gamma rays through Compton effect, or converting the gamma rays into positive and negative electron pairs through electron pair effect, respectively, and the gamma rays scattered by the disturbing unit are further attenuated by reabsorption or reflection after encountering the reflector. 13. The beam shaping assembly for neutron capture therapy according to claim 10, wherein the disturbing unit is a cylinder defining an axis and the axis of the cylinder coincides or is parallel to the beam axis. 14. A beam shaping assembly for neutron capture therapy, comprising:a neutron generating device housed within the beam shaping assembly for generating neutrons;a beam outlet, wherein the neutrons form a neutron beam in a direction from the neutron generating device to the beam outlet, and the neutron beam defines a beam axis;a moderator adjacent to the neutron generating device for moderating fast neutrons in the neutron beam to epithermal neutrons; anda disturbing unit;wherein the beam shaping assembly produces gamma rays in a process of adjusting an energy spectrum of the neutron beam, the disturbing unit defines an axis and the axis of the disturbing unit coincides or is parallel to the beam axis for allowing the neutron beam to pass through the disturbing unit and reducing contents of the gamma rays in the neutron beam passing through the beam outlet, and an internal structure of the disturbing unit is a porous structure. 15. The beam shaping assembly for neutron capture therapy according to claim 14, wherein a material of the disturbing unit is selected from the group consisting of rhenium, hafnium, lutetium, lead, cerium, zinc, bismuth, terbium, indium, antimony, gallium, lanthanum, tellurium, tin, selenium, yttrium, aluminum, strontium, barium, silicon, zirconium, rubidium, calcium, sulfur, iron, carbon, beryllium, magnesium, phosphorus, chromium, lithium, sodium, nickel element and combinations thereof. 16. The beam shaping assembly for neutron capture therapy according to claim 14, wherein the beam shaping assembly further includes a reflector surrounding the moderator and the disturbing unit for reflecting neutrons deviating from the neutron beam back to the neutron beam to enhance an intensity of the neutron beam, and wherein the reflector is made of a material having a strong neutron reflection ability. 17. The beam shaping assembly for neutron capture therapy according to claim 16, wherein when the neutron beam containing the gamma rays passes through the disturbing unit, the disturbing unit reduces the contents of the gamma rays in the neutron beam by absorbing the gamma rays through photoelectric effect, scattering the gamma rays through Compton effect, or converting the gamma rays into positive and negative electron pairs through electron pair effect, respectively, and the gamma rays scattered by the disturbing unit are further attenuated by reabsorption or reflection after encountering the reflector. 18. The beam shaping assembly for neutron capture therapy according to claim 14, wherein the disturbing unit is a cylinder, the radius of the bottom surface of the cylinder is 5 to 6 cm, and the height of the cylinder is 3 to 5 cm.