Radiotherapy device and microwave source thereof

What is claimed is: 1. A microwave source, comprising: a cathode heater including a double helix filament, wherein the double helix filament includes a first filament and a second filament; and a thermionic emitter configured to release electrons when the thermionic emitter is heated by the cathode heater; wherein when the first filament and the second filament are disposed in a magnetic field and powered by a power source, a first direction of a first current flow in the first filament is opposite to a second direction of a second current flow in the second filament. 2. The microwave source of claim 1 , wherein a first current value of the first current flow of the first filament and a second current value of the second current flow of the second filament are equal. 3. The microwave source of claim 2 , wherein a direction of the magnetic field is parallel to a filament axis direction of the double helix filament. 4. The microwave source of claim 3 , wherein a first diameter of the first filament is less than a second diameter of the second filament along a direction perpendicular to the filament axis direction of the double helix filament. 5. The microwave source of claim 1 , wherein the cathode heater further comprises: a supporting component in which at least a portion of the first filament or the second filament are embedded. 6. A microwave source, comprising: a cathode heater including one or more filaments, wherein each filament of the one or more filaments is of a cylindrical configuration; and a thermionic emitter configured to release electrons when the thermionic emitter is heated by the cathode heater; wherein when the cathode heater is disposed in a magnetic field, a direction of the magnetic field is parallel to an extending direction of the each filament of the one or more filaments. 7. The microwave source of claim 6 , wherein the cathode heater includes a plurality of filaments arranged in a cage configuration. 8. The microwave source of claim 6 , further comprising: a first connection member operably connected to a first end of the cathode heater; and a second connection member operably connected to a second end of the cathode heater, wherein the cathode heater is powered by a power source via the first connection member and the second connection member. 9. The microwave source of claim 6 , wherein the cathode heater further comprises: a supporting component in which at least a portion of the first filament or the second filament are embedded. 10. The microwave source of claim 9 , wherein the supporting component is made of an electrically insulating material. 11. A microwave source, comprising: a cathode heater; and a thermionic emitter configured to release electrons when the thermionic emitter is heated by the cathode heater, wherein the thermionic emitter includes: a substrate component, wherein the cathode heater is disposed inside the substrate component; and an electron emission layer disposed on an outer wall of the substrate component, wherein the electron emission layer includes at least one discontinuity. 12. The microwave source of claim 11 , wherein the electron emission layer includes at least one groove configured to cause the at least one discontinuity in the electron emission layer. 13. The microwave source of claim 12 , wherein the at least one groove extends along an axial direction or a circumferential direction of the substrate component. 14. The microwave source of claim 12 , wherein the electron emission layer includes a plurality of grooves, the plurality of grooves extending in a parallel direction and being equispaced. 15. The microwave source of claim 12 , wherein a cross section of one of the at least one groove is rectangular, trapezoidal, or parallelogram. 16. The microwave source of claim 12 , wherein each of the at least one groove includes a side surface, and the side surface and a surface of the electron emission layer are arranged at an angle. 17. The microwave source of claim 12 , wherein the electron emission layer includes at least one first groove and at least one second groove, a first extending direction of the at least one first groove being different from a second extending direction of the at least one second groove. 18. The microwave source of claim 12 , wherein the thermionic emitter further comprises: a filling layer disposed in the at least one groove. 19. The microwave source of claim 11 , wherein the substrate component is of a cylindrical configuration. 20. The microwave source of claim 11 , wherein the substrate component is made of molybdenum.