Sliding component

The invention claimed is: 1. A sliding component characterized in that dimples are provided on one sealing face of a pair of sliding parts that mutually slide relative to each other, where a cavitation formation area on an upstream side of each dimple is positioned closer to a low-pressure fluid side and a positive-pressure generation area on a downstream side of the dimple is positioned closer to a high-pressure fluid side, wherein the cavitation formation area and the positive-pressure generation area are provided in the same dimple and communicate with one another, the dimples do not communicate with the high-pressure fluid side, and the respective dimples do not communicate with one another, and a fluid that has been suctioned in from the low-pressure fluid side of the cavitation formation area of each of the dimples travels in the dimple and is returned to the high-pressure fluid side from the positive-pressure generation area. 2. A sliding component according to claim 1 , characterized in that, of the dimples adjacent to each other in a circumferential direction, the positive-pressure generation area of the dimple positioned on the upstream side is provided in a manner overlapping, in a radial direction, with the cavitation formation area of the dimple positioned on the downstream side. 3. A sliding component according to any one of claim 2 , characterized in that grooves with directionality are provided in the cavitation formation area. 4. A sliding component according to claim 3 , characterized in that the grooves with directionality are provided at least on the low-pressure fluid side of the cavitation formation area. 5. A sliding component according to claim 1 , characterized in that, of the pair of sliding parts, the sliding part on a rotating side that rotates in both forward and reverse directions is such that the cavitation formation area and positive-pressure generation area are provided symmetrically with each other across a line drawn in a radial direction by connecting a center of the dimple in a circumferential direction and a center of rotation. 6. A sliding component according to any one of claim 5 , characterized in that grooves with directionality are provided in the cavitation formation area. 7. A sliding component according to claim 6 , characterized in that the grooves with directionality are provided at least on the low-pressure fluid side of the cavitation formation area. 8. A sliding component according to claim 1 , characterized in that grooves with directionality are provided in the cavitation formation area. 9. A sliding component according to claim 8 , characterized in that the grooves with directionality are provided at least on the low-pressure fluid side of the cavitation formation area. 10. A sliding component according to claim 1 , wherein the dimples do not communicate with the low-pressure fluid side. 11. A sliding component according to claim 1 , wherein the cavitation formation area is constituted by an inner groove extending along the circumferential direction, and the positive-pressure generation area is constituted by an outer groove extending along the circumferential direction, wherein a wall of the inner groove on the low-pressure fluid side is closer to the low-pressure side than is a wall of the outer groove on the low-pressure fluid side, and a wall of the outer groove on the high-pressure fluid side is closer to the high-pressure side than is a wall of the inner groove on the high-pressure fluid side.