Accelerating cavity

The invention claimed is: 1. An accelerating cavity comprising: an electrically conductive cylindrical housing; and a plurality of cells made of a dielectric material and having openings in respective central portions of each of the plurality of cells through which charged particles are allowed to pass, each of the plurality of cells being arranged inside the electrically conductive cylindrical housing while being aligned in an axial direction of a central axis of the electrically conductive cylindrical housing, and sandwiched by the electrically conductive cylindrical housing in the axial direction of the central axis, wherein grooves each having a depth that is one fourth of a wavelength of radio frequency waves for an acceleration mode that propagate through each of the plurality of cells are provided on portions of the electrically conductive cylindrical housing that support each of the plurality of cells. 2. The accelerating cavity according to claim 1 , wherein, while the electrically conductive cylindrical housing is formed of a plurality of housing members included in the electrically conductive cylindrical housing joined together in the axial direction of the central axis, one of the cells is sandwiched between adjacent housing members. 3. The accelerating cavity according to claim 2 , wherein the plurality of housing members are joined together by electron beam welding or electroforming. 4. The accelerating cavity according to claim 1 , wherein the plurality of cells are arranged with a gap between adjacent cells in the axial direction of the central axis. 5. The accelerating cavity according to claim 1 , wherein the electrically conductive cylindrical housing includes a communication part causing inside and outside of the electrically conductive cylindrical housing to communicate with each other in a radial direction perpendicular to the central axis. 6. The accelerating cavity according to claim 5 , wherein the communication part is formed in a slit shape along an outer circumferential direction of the electrically conductive cylindrical housing. 7. The accelerating cavity according to claim 5 , wherein each of the plurality of cells is arranged with part of each of the plurality of cells exposed outside the electrically conductive cylindrical housing through the communication part, and the accelerating cavity further comprises: a cover part covering an outer surface of a portion of each of the plurality of cells, the portion being exposed to the communication part; and a flow path member arranged in contact with the cover part and having a cooling medium flowing in the flow path member. 8. The accelerating cavity according to claim 1 , further comprising an elastically deforming part configured to impart elastic force to the corresponding cell inward in a direction perpendicular to the central axis. 9. The accelerating cavity according to claim 8 , wherein the elastically deforming part is integral with the electrically conductive cylindrical housing. 10. The accelerating cavity according to claim 1 , further comprising a getter member provided inside the electrically conductive cylindrical housing and configured to remove a foreign object in the electrically conductive cylindrical housing.