Passive element

The invention claimed is: 1. A passive element comprising: a first conductor made of a metal and having an annular shape split by a first gap and at least one second gap that is different from the first gap, a second conductor made of the metal and formed so as to extend toward a plurality of points in the first conductor in a space surrounded by the first conductor, wherein a first capacitance generated by the first gap is different from a second capacitance generated by the at least one second gap, and the first gap and the at least one second gap are formed at intersection points of the first conductor and the second conductor, and the first gap and the at least one second gap split the first conductor and separate the first conductor and the second conductor from each other. 2. The passive element according to claim 1 , wherein the at least one second map comprises a plurality of second gaps; and the second capacitance generated by at least one of the plurality of second gaps is different from the second capacitances generated by the remaining second gaps. 3. The passive element according to claim 2 , comprising: a plurality of unit cells each including the first conductor, the second conductor, the first gap, and the at least one second gap, wherein the plurality of unit cells are arranged in an array, and for each of the plurality of unit cells, a dimension of the first gap and a dimension of the at least one second gap are set to have a desired transmission phase amount with respect to an incident electromagnetic wave. 4. The passive element according to claim 3 , wherein the plurality of unit cells are stacked one on another by setting, as a stack-growth direction, a direction perpendicular to a flat surface on which the first conductor is arranged. 5. The passive element according to claim 1 , comprising: a plurality of unit cells each including the first conductor, the second conductor, the first gap, and the at least one second gap, wherein the plurality of unit cells are arranged in an array, and for each of the plurality of unit cells, a dimension of the first gap and a dimension of the at least one second gap are set to have a desired transmission phase amount with respect to an incident electromagnetic wave. 6. The passive element according to claim 5 , wherein the plurality of unit cells are stacked one on another by setting, as a stack-growth direction, a direction perpendicular to a flat surface on which the first conductor is arranged. 7. The passive element according to claim 1 , wherein the second capacitance generated by the at least one second gap is smaller than the first capacitance generated by the first gap. 8. The passive element according to claim 1 , wherein the second capacitance generated by the at least one second gap is larger than the first capacitance generated by the first gap.