Bubble formation device and bubble formation method

The invention claimed is: 1. A bubble formation apparatus comprising: a rotor; a container in which the rotor is housed together with a liquid and a gas, the container having an inner lower surface, an inner upper surface facing the inner lower surface, and an inner side surface that joins the inner upper surface and the inner lower surface to each other; and a rotary device that causes rotation of the rotor with (i) a locally narrowed first gap being provided between the inner lower surface and a portion, pressed against the inner lower surface, of the rotor by the rotor being pressed against the inner lower surface of the container and (ii) a locally narrowed second gap being provided between the inner side surface and the rotor by the rotor being closer to a portion of the inner side surface of the container, wherein a bubble is formed by (I) periodically repeating local pressurization of a mixture of the gas and the liquid in the first gap and depressurization of the mixture performed when the mixture flows out from the first gap, and (II) periodically repeating local pressurization of the mixture in the second gap and depressurization of the mixture performed when the mixture flows out from the second gap, due to the rotation of the rotor by the rotary device. 2. The bubble formation apparatus according to claim 1 , wherein the rotor has magnetism, and the rotary device is magnetically coupled to the rotor via the container, to thereby cause the rotor to rotate with the rotor being pressed against the inner lower surface. 3. The bubble formation apparatus according to claim 1 , wherein the rotary device includes a linkage member that is mechanically linked to the rotor, and the rotary device causes the rotor to rotate with the rotor being pressed against the inner lower surface using the linkage member. 4. The bubble formation apparatus according to claim 1 , wherein at least one of a portion, pressed against the inner lower surface, of the rotor or the inner lower surface of the container has a recess-and-projection structure in which a recess and a projection are placed in a circumferential direction that is a direction of the rotation of the rotor. 5. The bubble formation apparatus according to claim 4 , wherein the rotor has the recess-and-projection structure. 6. The bubble formation apparatus according to claim 1 , wherein the container includes an inlet through which the liquid and the gas are introduced, and a discharge port that is placed at a position different from a position of the inlet, and through which a gas-liquid mixed fluid in which the gas allowed to be a bubble is dispersed in the liquid is discharged. 7. The bubble formation apparatus according to claim 1 , wherein the rotor has an outer surface made of a resin having hydrophobicity. 8. A bubble formation method comprising: encapsulating a rotor, together with a liquid and a gas, in a container having an inner lower surface, an inner upper surface facing the inner lower surface, and an inner side surface that joins the inner upper surface and the inner lower surface to each other; and causing rotation of the rotor with (i) a locally narrowed first gap being provided between the inner lower surface and a portion, pressed against the inner lower surface, of the rotor by the rotor being pressed against the inner lower surface of the container and (ii) a locally narrowed second gap being provided between the inner side surface and the rotor by the rotor being closer to a portion of the inner side surface of the container, wherein in the causing the rotation, a bubble is formed by (I) periodically repeating local pressurization of a mixture of the gas and the liquid in the first gap and depressurization of the mixture performed when the mixture flows out from the first gap and (II) periodically repeating local pressurization of the mixture in the second gap and depressurization of the mixture performed when the mixture flows out from the second gap, due to the rotation of the rotor by the rotary device. 9. The bubble formation apparatus according to claim 3 , wherein the linkage member has elasticity that enables bending deformation, and the rotary device causes the rotor to rotate with the rotor being pressed against the inner side surface using elastic restoring force against the bending deformation of the linkage member. 10. The bubble formation apparatus according to claim 1 , wherein the second gap has a dimension that is less than or equal to D/20 where D is the maximum value of a spacing between the rotor and the inner side surface. 11. The bubble formation apparatus according to claim 1 , wherein the liquid has a liquid level height that is about equal to a height of the rotor's upper surface, while facing the inner upper surface of the container, and the gas is housed between the liquid level height of the liquid and the inner upper surface of the container. 12. A bubble formation apparatus comprising: a rotor; an enclosure in which the rotor is housed together with a liquid and a gas, the enclosure having an inner lower surface, an inner upper surface facing the inner lower surface, and an inner peripheral surface that joins the inner upper surface and the inner lower surface to each other; and a rotary device that causes rotation of the rotor with the rotor being pressed against the inner lower surface of the enclosure and closer to one side of the inner peripheral surface, wherein the rotary device is magnetically coupled to the rotor via the enclosure, to thereby cause the rotor to rotate with the rotor being pressed against the inner lower surface of the enclosure. 13. The bubble formation apparatus according to claim 12 , wherein a bubble is formed by periodically repeating local pressurization of a mixture of the gas and the liquid in a gap between the inner surface of the enclosure and a portion. 14. The bubble formation apparatus according to claim 13 , wherein the back surface portion of the rotor includes at least one projection and at least one recess. 15. The bubble formation apparatus according to claim 14 , wherein the back surface portion of the rotor faces the inner lower surface of the enclosure. 16. The bubble formation apparatus according to claim 15 , wherein the back surface portion of the rotor includes four projections and four recesses. 17. The bubble formation apparatus according to claim 14 , wherein the rotor further includes at least one projection and at least one recess on its side surface facing the inner peripheral surface of the enclosure. 18. The bubble formation apparatus according to claim 12 , wherein the upper inner surface of the enclosure is a removable lid.