Electron multiplier and photomultiplier including the same

What is claimed is: 1. An electron multiplier comprising multistage dynodes arranged in series on a installation surface, along a first direction on the installation surface, and configured to implement cascade multiplication of electrons traveling along a direction parallel to the first direction, each of the multistage dynodes comprising: a common pedestal extending along a second direction on the installation surface, the second direction being perpendicular to the first direction; and a plurality of columns, each column extending along a third direction perpendicular to both the first and second directions, each column being arranged on the common pedestal in a state in which the columns are spaced apart by a predetermined distance; wherein all of the common pedestals of the multistage dynodes are in direct contact with the installation surface while being arranged in series on the installation surface along the first direction, and wherein, in each of the multistage dynodes, at least any one column out of the plurality of columns has a cross-section in a horizontal plane parallel to the installation surface that varies in at least one of size or shape depending upon the height of the column in the third direction. 2. The electron multiplier according to claim 1 , wherein in each of the multistage dynodes, a region where a single secondary electron emitting surface is formed in the peripheral surface of at least any one column out of the plurality of columns has a cross-section defined by a plane perpendicular to the second direction and being in parallel to both of the first and third directions, said cross-section having a two-dimensional shape defined by line segments including one or more depressions entering into said column. 3. The electron multiplier according to claim 1 , wherein in each of the multistage dynodes, at least any one column out of the plurality of columns has a cross-section defined by a plane perpendicular to the second direction and being parallel to both of the first and third directions, said cross-section having a two-dimensional shape such that a width of said cross-section defined by a length along the first direction changes in a continuous or step-wise fashion along the third direction. 4. The electron multiplier according to claim 1 , wherein in each of the multistage dynodes, a surface shape of a region where a single secondary electron emitting surface is formed in the peripheral surface of at least any one column out of the plurality of columns is composed of one or more curved surfaces, one or more planes, or a combination thereof. 5. A photomultiplier comprising: an envelope an interior of which is maintained in a reduced pressure state, and at least a part of which is comprised of a substrate of an insulating material having an installation surface; a photocathode which is housed in an interior space of the envelope and which emits photoelectrons into the interior of the envelope according to light incident through the envelope; the electron multiplier as defined in claim 1 , which is arranged on the installation surface in a state in which the electron multiplier is housed in the interior space of the envelope; and an anode which is arranged on the installation surface in a state in which the anode is housed in the interior space of the envelope, and which is provided for extracting arriving electrons out of electrons resulting from cascade multiplication by the electron multiplier, as a signal. 6. The photomultiplier according to claim 5 , wherein as a relation of regions facing each other between adjacent dynodes, each of a region where a single secondary electron emitting surface is formed in the peripheral surface of a column in one dynode and a region where a single secondary electron emitting surface is formed in the peripheral surface of a column in the other dynode, has a cross-section defined by a plane perpendicular to the second direction and being parallel to both of the first and third directions, said cross-section having a surface shape depressed in a direction away from the other dynode. 7. The photomultiplier according to claim 5 , wherein the envelope comprises: a lower frame at least a part of which having the installation surface is comprised of an insulating material; an upper frame which is arranged opposite to the lower frame and at least a part of which having a surface facing the installation surface of the lower frame is comprised of an insulating material; and a sidewall frame which is disposed between the upper frame and the lower frame and which has a shape to surround the electron multiplier and the anode, and wherein the electron multiplier and the anode are arranged on the installation surface in a state in which the electron multiplier and the anode are spaced apart from each other by a predetermined distance. 8. The photomultiplier according to claim 5 , further comprising a plurality of recesses arranged in a state in which the recesses are spaced apart by a predetermined distance on the installation surface, each recess extending along the second direction on the installation surface, wherein each of the multistage dynodes is arranged on the installation surface so that the pedestal thereof is located between the recesses. 9. An electron multiplier comprising multistage dynodes arranged in series on a continuous installation surface, along a first direction on the installation surface, and configured to implement cascade multiplication of electrons traveling along a direction parallel to the first direction, each of the multistage dynodes comprising: a common pedestal extending along a second direction on the installation surface, the second direction being perpendicular to the first direction; and a plurality of columns, each column extending along a third direction perpendicular to both the first and second directions, column each column being arranged on the common pedestal in a state in which the columns are spaced apart by a predetermined distance; wherein all of the common pedestals of the multistage dynodes are in direct contact with the installation surface while being arranged in series on the installation surface along the first direction, and wherein, in each of the multistage dynodes, at least one surface of each column is covered by a single secondary electron emitting surface, and at least one column has a cross-section that is indented on each side, with at least one side of the cross-section having a protrusion or depression, when viewed in the second direction, and wherein the cross-section at least widens or narrows along the third direction. 10. The electron multiplier according to claim 9 , wherein in each of the multistage dynodes, at least any one column out of the plurality of columns has a cross-section defined by a plane perpendicular to the second direction and being in parallel to both of the first and third directions, said cross-section having a two-dimensional shape such that a width of said cross-section defined by a length along the first direction changes in a continuous or step-wise fashion along the third direction. 11. The electron multiplier according to claim 9 , wherein in each of the multistage dynodes, a surface shape of the region where the single secondary electron emitting surface is formed in the peripheral surface of at least any one column out of the plurality of columns is composed of one or more curved surfaces, one or more planes, or a combination thereof. 12. A photomultiplier comprising: an envelope an interior of which is maintained in a reduced pressure state, and at least a part of which is comprised of a substrate of an insulating material havi