Phase shifter, accelerator and method of operating the same

The invention claimed is: 1. A phase shifter, comprising a rotating part having a first hollow structure, the first hollow structure having a first cavity, a distance between a circumference of the cross section of the first cavity and a rotation center of the rotating part changing periodically and continuously in a peripheral direction, such that when the rotatory part rotates, a phase shift occurs between two adjacent microwave pulses at an outlet of the phase shifter. 2. The phase shifter according to claim 1 , wherein the distance between the circumference of the cross section of the first cavity and the rotation center of the rotating part changes periodically and continuously in the peripheral direction at 180°. 3. The phase shifter according to claim 2 , wherein the phase shift ranges from 0°-180°. 4. The phase shifter according to claim 2 , wherein the cross section of the first cavity assumes an oval or rectangular shape. 5. The phase shifter according to claim 1 , wherein the cross section of the first cavity assumes an equilateral triangle or an equilateral polygon. 6. The phase shifter according to claim 1 , wherein the first hollow structure further comprises two first gradual transition cavities and two first circular waveguides disposed adjacent to two ends of the rotating part respectively, the two first circular waveguides are respectively communicating with two ends of the first cavity through the corresponding first gradual transition cavities. 7. The phase shifter according to claim 6 , further comprising two fixing parts respectively disposed adjacent to two ends of the rotating part, the rotating part being rotatable relative to the fixing part; the fixing part comprising a second hollow structure; the second hollow structure having a second cavity; the second cavity comprises a square waveguide, a second gradual transition cavity and a second circular waveguide, the square waveguide communicating with the second circular waveguide through the second gradual transition cavity, the second circular waveguide being adjacent to the rotating part. 8. The phase shifter according to claim 7 , wherein the inner diameter of the first circular waveguide is consistent with that of the second circular waveguide. 9. The phase shifter according to claim 8 , further comprising a choking structure which is disposed between the first circular waveguide and the second circular waveguide. 10. An accelerator comprising an accelerating tube for accelerating electrons in the accelerator, a phase shifter according to claim 1 and driving means, the phase shifter being disposed in the accelerating tube, the driving means for driving rotation of the rotating part. 11. The accelerator according to claim 10 , wherein the accelerating tube comprises a first accelerating tube and a second accelerating tube, the first accelerating tube is disposed upstream of the second accelerating tube, the phase shifter is disposed in the second accelerating tube. 12. The accelerator according to claim 10 , wherein a cross section of the first cavity being in an oval shape; and when a microwave pulse is transmitted within the accelerator at a repetitive frequency v Hertz, the driving means drives the rotating part to rotate at a rotation speed of n RPM, wherein n=15vm, m is an odd number, 1, 3, 5 . . . , such that when transmitting a microwave pulse each time, the long axis of the oval cross section of the first cavity of the rotatory part is rotated to a horizontal or vertical state, and the phase shift between two adjacent microwave pluses at an outlet of the phase shifter being 180°.