Accelerating cavity and accelerator

The invention claimed is: 1. An accelerating cavity comprising: a housing having an inner peripheral surface in a tubular shape and conductivity on a surface; and a plurality of cells provided inside the housing and each made of a dielectric including, at a central part, an opening through which a charged particle passes, wherein the housing includes a barrel portion having a tubular shape and end plates installed at both ends of the barrel portion, the plurality of cells are disposed in a range extending from the end plate on one end side of the housing to the end plate on the other end side, and each cell includes: a cylindrical barrel portion having a diameter smaller than an inner diameter of the barrel portion of the housing; and a plate portion provided inside of the cylindrical barrel portion to be fixed to the cylindrical barrel portion, and disposed such that a plate surface is orthogonal to a passing axis of the charged particle, and provided with the opening. 2. The accelerating cavity according to claim 1 , wherein an index tan δ indicating a dielectric loss is equal to or smaller than 1×10−3 for the dielectric. 3. The accelerating cavity according to claim 1 , wherein an index tan δ indicating a dielectric loss is equal to or smaller than 1×10−5 for the dielectric. 4. The accelerating cavity according to claim 1 , wherein a cell adjacent to the end plate of the housing among the plurality of cells further includes a second cylindrical barrel portion provided around the passing axis, and the second cylindrical barrel portion is connected with the end plate and the plate portion of the cell adjacent to the end plate. 5. The accelerating cavity according to claim 1 , wherein the plurality of the cylindrical barrel portions having diameters different from each other are concentrically disposed in each cell of the plurality of cells. 6. The accelerating cavity according to claim 5 , wherein the number of the plurality of cylindrical barrel portions in each cell is n−1, where n represents the order of an acceleration mode. 7. The accelerating cavity according to claim 1 , wherein each cell has a surface coated with TiN. 8. An accelerator comprising: an accelerating cavity, wherein, the accelerating cavity comprises; a housing having an inner peripheral surface in a tubular shape and conductivity on a surface; and a plurality of cells provided inside the housing and each made of a dielectric including, at a central part, an opening through which a charged particle passes, wherein the housing includes a barrel portion having a tubular shape and end plates installed at both ends of the barrel portion, the plurality of cells are disposed in a range extending from the end plate on one end side of the housing to the end plate on the other end side, and each cell includes: a cylindrical barrel portion having a diameter smaller than an inner diameter of the barrel portion of the housing; and a plate portion provided inside of the cylindrical barrel portion to be fixed to the cylindrical barrel portion, and disposed such that a plate surface is orthogonal to a passing axis of the charged particle, and provided with the opening.